3.1.1.14: chlorophyllase
This is an abbreviated version!
For detailed information about chlorophyllase, go to the full flat file.
Word Map on EC 3.1.1.14
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3.1.1.14
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phytol
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pheophorbide
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mg-dechelatase
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dephytylation
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pheophytinase
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bacteriochlorophyll
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stay-green
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bacteriochlorophyllide
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mg-free
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synthesis
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agriculture
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biotechnology
- 3.1.1.14
- phytol
- pheophorbide
- mg-dechelatase
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dephytylation
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pheophytinase
- bacteriochlorophyll
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stay-green
- bacteriochlorophyllide
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mg-free
- synthesis
- agriculture
- biotechnology
Reaction
Synonyms
ADK38_11350, ADK43_31155, ADK78_03330, ADL21_28415, ADL28_40565, ADL32_23315, AJAP_22265, AMED_0735, AMTR_s00002p00270990, AtCLH1, AtCLH2, AW19_2954, BC342_33805, BE15_26615, BG04_602, BoCLH1, BOLC2T10484H, BOLC5T30519H, BV96_01378, BXO91_01455, BZ13_341, CACLH, cce_5094, Cha6605_2121, Chase 1, Chl-degrading enzyme, CHL1, Chlase, Chlase 2, CHlase F1, Chlase F2, Chlase1, Chlase2, chlorophyll chlorophyllido-hydrolase, chlorophyll chlorophyllido-hydrolyase, chlorophyll chlorophyllidohydrolase, chlorophyll-chlorophyllide hydrolase, chlorophyll-chlorophyllido hydrolase, chlorophyll-chlorophyllido-hydrolase, chlorophyll-chlorophyllidohydrolase, chlorophyllase, chlorophyllase 1, chlorophyllase 2, chlorophyllase family protein, Chlorophyllase multi-domain protein, chlorophyllase type 0, Chlorophyllase-1, chlorophyllase-2, chlorophyllase-like, chlorophyllase1, CJJ17_24065, CLH, CLH1, CLH2, CLH3, coronatine-induced protein, coronatine-induced protein 1, CrCLH1, Csa_2G222090, CSB93_3304, CyanoCLH, CYY8467 Chlase2, DDY18_06460, DF19_10980, DJ90_4464, DJ93_5833, DM39_4274, DM48_2363, DR71_1130, DV20_35655, ERS008472_03552, ERS008530_03671, F775_31213, FG87_12610, FM21_30765, GKIL_3644, H489_0111595, HMPREF9554_01030, IbChlase, JCGZ_02225, KALB_5797, LK07_10060, LL06_17325, LP52_09115, MAB_3744, Micau_5231, More, MTR_1g041385, Namu_1618, Nos7524_0754, O3I_013485, Os10g0419600, P354_07750, POPTR_010G082300, QR77_15265, SAMN05421833_13812, SAMN05660733_05076, Sare_3190, SAVERM_2604, SD37_17575, SD80_11705, SETIT_9G266700v2, SGM_2508, SL103_16385, SNA_20280, Theco_3404, TK50_20200, TRIUR3_22141, truncated chlorophyllase 2, TU94_29540, UK23_27830, VAB18032_29991, VIT_07s0151g00110, VZ95_07895, XU06_03985, Y717_00135, YC6258_05192, Z051_21130, ZEAMMB73_Zm00001d032926
ECTree
3.1.1.14 chlorophyllaseAdvanced search results
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General Information on EC 3.1.1.14 - chlorophyllase
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GENERAL INFORMATION 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
evolution
malfunction
metabolism
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the enzyme is involved in the chlorophyll metabolism. Chlorophyllide is not a first intermediate of chlorophyll breakdown, almost unchanged chlorophyll to chlorophyllide ratio after 24 h of paraquat treatment. Melatonin treatment of seeds enhances the ability of pea seedlings to accelerate chlorophyll breakdown and chlorophyll de novo synthesis before oxidative stress exerted by herbicide paraquat treatment appears and several hours after stressing, respectively, while during prolonged paraquat incubation, melatonin delays chlorophyll degradation
physiological function
additional information
evolution
IbChlase in TN57, CN1927, and CYY8467 shares 95% identity, and an eight-nucleotide sequence of Chlase in CYY8467 is missing due to a frame-shift mutation of the Chlase gene leading to early termination of gene translation. Sequences from cutlivars TN57 and CN1927 are clustered together in a clade as Chlase2. Phylogenetic analysis and tree
evolution
the deduced amino acid sequence of recombinant CyanoCLH comprises a unique lipase-motif GHSLG, which differs from the GHSRG sequence of other plants and lacks a histidine of the typical and conserved catalytic triad Ser-Asp-His
evolution
the enzyme shares th highly conserved lipase motif GXSXG
malfunction
chlorophyll breakdown is indistinguishable between wild-type plants and clh1 and clh1/clh2 mutant plants. By contrast, chlorophyll degradation is significantly delayed in an Arabidopsis thaliana mutant that lacks pheophytinase (PPH), catalyzing the breakdown of phytol and known to be associated with chlorophyll catabolism. These data indicate that PPH, not CLH1, is responsible for the majority of MeJA-enhanced chlorophyll breakdown, even though CLH1 is highly induced by methyl jasmonate
malfunction
chlorophyll breakdown is indistinguishable between wild-type plants and clh1 and clh1/clh2 mutant plants. By contrast, chlorophyll degradation is significantly delayed in an Arabidopsis thaliana mutant that lacks pheophytinase (PPH), catalyzing the breakdown of phytol and known to be associated with chlorophyll catabolism. These data indicate that PPH, not CLH1, is responsible for the majority of methyl jasmonate-enhanced chlorophyll breakdown, even though CLH1 is highly induced by methyl jasmonate
malfunction
exposure to phenanthrene, a model compound for polycyclic aromatic hydrocarbon (PAH) stress, leads to enhancement of both chlorophyll synthesis and degradation, but the degradation rate is faster. Phenanthrene accumulation has significant and positive effects on increase of glutamate, 5-aminolevulinic acid, uroporphyrinogen III, protoporphyrin IX, Mg-protoporphyrin IX and protochlorophyllide concentrations. Over the exposure time, wheat leaf color turns light. With the accumulation of phenanthrene, the concentrations of glutamate, 5-aminolevulinic acid, uroporphyrinogen III, protoporphyrin IX, Mg-protoporphyrin IX and protochlorophyllide increase while the concentrations of porphobilinogen and Chlorophyll b decrease. Also chlorophyll a content rises initially and then declines. Uroporphyrinogen III synthase and chlorophyllase are activated and porphobilinogen deaminase activity declines in the treatments. There is a negative correlation between phenanthrene accumulation and total chlorophyll. Toxicity of PAHs to plants and crop PAH-adaptive mechanism in the environment, overview. With increasing phenanthrene accumulation in wheat leaves, the growth of wheat leaves is inhibited, and mature wheat leaf color turns light
malfunction
the incomplete Chlase2 protein of cultivar CYY8467 lacks for the core domain, suggesting that the incomplete CYY8467 Chlase2 does not function in Chl degradation
malfunction
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chlorophyll breakdown is indistinguishable between wild-type plants and clh1 and clh1/clh2 mutant plants. By contrast, chlorophyll degradation is significantly delayed in an Arabidopsis thaliana mutant that lacks pheophytinase (PPH), catalyzing the breakdown of phytol and known to be associated with chlorophyll catabolism. These data indicate that PPH, not CLH1, is responsible for the majority of MeJA-enhanced chlorophyll breakdown, even though CLH1 is highly induced by methyl jasmonate
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malfunction
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chlorophyll breakdown is indistinguishable between wild-type plants and clh1 and clh1/clh2 mutant plants. By contrast, chlorophyll degradation is significantly delayed in an Arabidopsis thaliana mutant that lacks pheophytinase (PPH), catalyzing the breakdown of phytol and known to be associated with chlorophyll catabolism. These data indicate that PPH, not CLH1, is responsible for the majority of methyl jasmonate-enhanced chlorophyll breakdown, even though CLH1 is highly induced by methyl jasmonate
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physiological function
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type II chlorophyllase takes part in chlorophyll degradation in stored broccoli florets
physiological function
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chlorophyll (Chl) breakdown, Chl degradation into phytol, is a multistep enzymatic process, phytol is the first decomposition product of the porphyrin ring. The breakdown takes place in four successive steps catalyzed by chlorophyllase (Chlase), Mg-dechelatase, PAO and red chlorophyll catabolite reductase. Enzyme chlorophyllase (Chlase) catalyzes the reaction of chlorophyll hydrolysis to chlorophyllide (Chlide) and phytol, and it is the first enzyme of Chl catabolism during fruit ripening and leaf senescence
physiological function
chlorophyllase (Chlase) is a hydrophobic enzyme that catalyzes the hydrolysis of chlorophyll (Chl) to chlorophyllide (Chlide) and phytol. Chlase characteristics of sweet potatoes (Ipomoea batatas) with various leaf colors indifferent varieties: yellow (CN1927), green (TN57), and purple (CYY8467). Large variations in Chl and anthocyanin (Ant) and carotenoid (Car) exist in all plants, and cv. CYY8467 contains significantly higher Chl, Ant, and Car levels compared to cvs. TN57 and CN1927. Various plants exhibit different Chlase activities, and Chl a degradation by Chlase of CYY8467 is higher than those of TN57 and CN1927
physiological function
chlorophyllase 1 (CLH1) is not involved in endogenous chlorophyll catabolism, but CLH1 promotes chlorophyllide formation upon disruption of leaf cells, or when it is artificially mistargeted to the chloroplast. CLH is responsible for chlorophyllide formation after the collapse of cells, suggesting that chlorophyllide formation might be a process of defense against chewing herbivores. Arabidopsis leaves with genetically enhanced CLH1 activity exhibit toxicity when fed to Spodoptera litura larvae, an insect herbivore. Purified chlorophyllide partially suppresses the growth of the larvae. Isozyme CLH1 represents the majority of detectable CLH activity in Arabidopsis thaliana
physiological function
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chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
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chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
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chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
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chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
A0A0X3WMQ3
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
A0A0B6FPX1
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
A0A1X0M486
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
A0A031JJ58
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
physiological function
CLH2 represents the minority of detectable CLH activity in Arabidopsis thaliana
physiological function
-
induction and course of autumn leaf senescence in early, intermediate and late phenological forms of beech is analyzed from the contents of chlorophyll a and b, chlorophyll degradation products and the activities of chlorophyllase and Mg-dechelatase. Chlorophyll degradation in senescing leaves (obvious by leaf discoloration) of this form occurs in three stages, which strongly coincides with the dates of sudden temperature drops. These stages are less visible in the intermediate form, wherexadas chlorophyll degradation in the late form is the most stable and occurs in two stages. The fraction of chlorophyllides and phaeophytin in relation to chlorophylls in the early phenological form is significantly higher than that in the late form. Biochemical analyses indicate that pigment dephytylation associated with an increase in chlorophyllase activity is an early reaction of chlorophyll degradation, whereas the Mg-dexadchelating reaction is much less important. The activity of chlorophyllase depends significantly on the phenological form. All chlorophyll degradation parameters are highly corxadrelated with temperature changes during senescence. The early phenological form is characterised by the highest correlation coefficients
physiological function
key enzyme in chlorophyll degradation
physiological function
key enzyme in chlorophyll degradation
physiological function
XP_010326690
key enzyme in chlorophyll degradation
physiological function
recombinant chlorophyllase 1, CrCLH1, can perform chlorophyll dephytylation and produce chlorophyllide and phytol
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase 1 (CLH1) is not involved in endogenous chlorophyll catabolism, but CLH1 promotes chlorophyllide formation upon disruption of leaf cells, or when it is artificially mistargeted to the chloroplast. CLH is responsible for chlorophyllide formation after the collapse of cells, suggesting that chlorophyllide formation might be a process of defense against chewing herbivores. Arabidopsis leaves with genetically enhanced CLH1 activity exhibit toxicity when fed to Spodoptera litura larvae, an insect herbivore. Purified chlorophyllide partially suppresses the growth of the larvae. Isozyme CLH1 represents the majority of detectable CLH activity in Arabidopsis thaliana
-
physiological function
-
CLH2 represents the minority of detectable CLH activity in Arabidopsis thaliana
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
physiological function
-
chlorophyllase activity involves degradation of chlorophyll and disintegration of the photosynthetic apparatus. The chlorophyllase enzyme catalyzes the hydrolysis of the ester bond in the chlorophyll molecule leading to production of chlorophyllide and phytol
-
additional information
-
bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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A0A0X3WMQ3
bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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A0A0B6FPX1
bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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A0A1X0M486
bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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A0A031JJ58
bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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XP_010934773
bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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XP_008355440
bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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XP_008235366
bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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XP_010326690
bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of plant chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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bioinformatics evaluation of bacterial chlorophyllases, overview
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