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donor xyloglucan + acceptor xyloglucan
?
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?
donor xyloglucan + xyloglucan acceptor
?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
xyloglucan oligosaccharides + xyloglucan
?
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?
xyloglucan oligosaccharides + xyloglucan
? + xyloglucan
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xyloglucans with MW of about 600-1000 kDa
MW about 50 kDa
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additional information
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donor xyloglucan + xyloglucan acceptor
?
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XET and xyloglucan may play a role in the cell wall changes that accompany fruit softening during ripening, substrates for XET action are located in the cell wall
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?
donor xyloglucan + xyloglucan acceptor
?
Adiantum capillus-veneri
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Aloe sp.
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Anthurium upalaense
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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Arabidopsis MERI-5 and TCH4 and cauliflower isoenzymes expression occur in dense cytoplasmic tissues predominantly involved in the assembly of new cell walls and thus in the integration of newly secreted xyloglucan into the cell wall
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donor xyloglucan + xyloglucan acceptor
?
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the xyloglucan:xyloglucosyl transferase gene TCH4 is strongly upregulated by environmental stimuli, enzyme may function in modifying cell walls to allow growth, airspace formation, the development of vasculature, and reinforcement of regions under mechanical strain, TCH4 protein may contribute to the adaptive changes in morphogenesis that occurs in the organism following exposure to mechanical stimuli
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?
donor xyloglucan + xyloglucan acceptor
?
XETs encoded by a gene family may influence plant growth and development, low pH would limit XET function in vivo
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme is unlikely to play a role in acid-induced wall loosening but may function in cold acclimation or cold-tolerant growth, TCH4 expression is rapidly regulated by mechanical stimuli, temperature shifts, light and hormones, it may be involved in assembling nascent cell walls or reinforcing existing and expanding walls
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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existence of different classes of XET with differing roles in vivo
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?
donor xyloglucan + xyloglucan acceptor
?
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role in cell elongation
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme is capable of splitting and reconnecting xyloglucan molecules in rapidly growing plant tissues, expression and presumed physiological roles of At-XTH22 and 24
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?
donor xyloglucan + xyloglucan acceptor
?
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Arabidopsis EXGT and mung bean isoenzymes expression in tissues involved in the loosening of existing cell wall material necessary for rapid cell expansion, e.g. vacuolation
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Azolla sp.
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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Arabidopsis MERI-5 and TCH4 and cauliflower isoenzymes expression occur in dense cytoplasmic tissues predominantly involved in the assembly of new cell walls and thus in the integration of newly secreted xyloglucan into the cell wall
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?
donor xyloglucan + xyloglucan acceptor
?
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existence of different classes of XET with differing roles in vivo
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?
donor xyloglucan + xyloglucan acceptor
?
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major role is the integration of new xyloglucan into the cell walls of the densely cytoplasmic florets
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Chamaecyparis sp.
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Commelina nilagirica
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination
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?
donor xyloglucan + xyloglucan acceptor
?
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one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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?
donor xyloglucan + xyloglucan acceptor
?
NtXET-1 is involved in the incorporation of small xyloglucan molecules into the cell wall by transglycosylation, role during differentation and growth of the vascular tissue, reduced NtXET-1 expression and increase in the MW of xyloglucans in older leaves might be associated with strengthening of cell walls by reduced turnover and hydrolysis of xyloglucan, control of NtXET-1 expression in leaves
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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key enzyme responsible for forming and rearranging the cellulose/xyloglucan network of the cell wall, commitment to the construction of both cell plate and cell wall
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme depolymerises xyloglucan
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?
donor xyloglucan + xyloglucan acceptor
?
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one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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?
donor xyloglucan + xyloglucan acceptor
?
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regulation of XET activity: enzyme exists in plant cell walls in a transiently latent state as covalent glycosyl-enzyme complex and is active only when suitable glycosyl acceptors become available
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme depolymerises xyloglucan
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme is responsible for cutting and rejoining intermicrofibrillar xyloglucan chains and thus causes the wall-loosening required for plant cell expansion and plant growth, in vivo the usual acceptor is polymeric wall-bound xyloglucan
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?
donor xyloglucan + xyloglucan acceptor
?
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involved in xyloglucan metabolism
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?
donor xyloglucan + xyloglucan acceptor
?
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one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination
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?
donor xyloglucan + xyloglucan acceptor
?
Pitcairnia imbricata
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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activity increases markedly at the exponential growth and decreases immediately at the stationary phase of cells in presence of 2,4-dichlorophenoxyacetic acid, the activity is developmentally regulated during growth but is not directly induced by plant hormones
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?
donor xyloglucan + xyloglucan acceptor
?
multifunctional role in cell wall construction, role in restructuring primary cell walls at the time when secondary wall layers are deposited, probably creating and reinforcing the connections between the primary and secondary wall layers
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?
donor xyloglucan + xyloglucan acceptor
?
Pothomorphe petalta
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Selaginella sp.
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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?
donor xyloglucan + xyloglucan acceptor
?
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important component of cell wall metabolism, particularly expanding tissue and ripening fruits, study on the role in tomato fruit ripening and vegetative growth, tXET-B1 may incorporate new xyloglucan into the existing network
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?
donor xyloglucan + xyloglucan acceptor
?
enzyme mediates cell wall disassembly associated with expansive growth
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?
donor xyloglucan + xyloglucan acceptor
?
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one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
Tragopodon pratensis
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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2 isoenzymes: sXET from seeds plays a role in degrading xyloglucan reserves in seeds during germination, eXET from epicotyls is engaged in cell wall rearrangement and integration of new xyloglucan molecules into the preexisting cell wall structure during growth
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?
donor xyloglucan + xyloglucan acceptor
?
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role in elongation-growth and other processes involving xyloglucan metabolism
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?
donor xyloglucan + xyloglucan acceptor
?
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regulation of XET activity: enzyme exists in plant cell walls in a transiently latent state as covalent glycosyl-enzyme complex and is active only when suitable glycosyl acceptors become available
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?
donor xyloglucan + xyloglucan acceptor
?
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existence of different classes of XET with differing roles in vivo
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?
donor xyloglucan + xyloglucan acceptor
?
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enzyme is involved in the post-germinative mobilization of xyloglucan storage reserves, involved in cell wall loosening, activity is primarily regulated at the level of gene expression
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?
donor xyloglucan + xyloglucan acceptor
?
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lentil and nasturtium, NXG1, seed enzymes are involved in the mobilization of cotyledonary xyloglucan reserves after germination
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?
donor xyloglucan + xyloglucan acceptor
?
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one of four enzymes, which act in concert to catalyze the mobilisation of storage xyloglucan from the cell wall
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?
donor xyloglucan + xyloglucan acceptor
?
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XET1 may play a role in cell-wall xyloglucan metabolism, such as the incorporation of newly synthesized xyloglucan into the expanding primary cell wall or the modification of xyloglucan polymers forming cross-links between cellulose microfibrils, NXG1 in vivo predominantly exhibits xyloglucanase activity and mobilizes nonfucosylated xyloglucan seed storage reserves
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?
donor xyloglucan + xyloglucan acceptor
?
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one of the key enzymes involved in the breakdown of reserve xyloglucan in seeds of some dicotyledonous plants during germination
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
-
acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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-
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?
donor xyloglucan + xyloglucan acceptor
?
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reconnecting enzyme for xyloglucans, involved in the interweaving or reconstruction of cell wall matrix, which is responsible for chemical creepage that leads to morphological changes in the cell wall, responsible for cell wall loosening and integration of cell wall architecture
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?
donor xyloglucan + xyloglucan acceptor
?
-
existence of different classes of XET with differing roles in vivo
-
-
?
donor xyloglucan + xyloglucan acceptor
?
-
Arabidopsis EXGT and mung bean isoenzymes expression in tissues involved in the loosening of existing cell wall material necessary for rapid cell expansion, e.g. vacuolation
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-
?
donor xyloglucan + xyloglucan acceptor
?
-
associated with primary cell wall metabolism, rather than mobilisation of any seed storage xyloglucan, major role is the re-structuring of existing wall material in the rapidly vacuolating shoots
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?
donor xyloglucan + xyloglucan acceptor
?
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?
donor xyloglucan + xyloglucan acceptor
?
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acts in root development, necessary for root hair growth
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?
donor xyloglucan + xyloglucan acceptor
?
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role in wall assembly as well as loosening
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?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
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-
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?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
-
-
-
-
?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
-
-
-
-
?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
-
-
-
-
?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
-
-
-
-
?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
-
-
-
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?
mixed-linkage (1->3,1->4)-beta-D-glucan
xyloglucan oligosaccharide
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?
additional information
?
-
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free oligosaccharides are probably not the usual acceptor substrates in vivo
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?
additional information
?
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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?
additional information
?
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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?
additional information
?
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root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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?
additional information
?
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root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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?
additional information
?
-
root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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?
additional information
?
-
root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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?
additional information
?
-
root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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-
?
additional information
?
-
-
root-specific isozyme AtXTH1 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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-
?
additional information
?
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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-
?
additional information
?
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
-
root-specific isozyme AtXTH13 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. The endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
?
-
root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
-
-
?
additional information
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root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH17 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH18 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
?
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
?
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root-specific isozyme AtXTH19 exhibits only the endotransglucosylase activity, XET, EC 2.4.1.207, towards xyloglucan and non-detectable endohydrolytic activity, XEH, EC 3.2.1.151. Its endotransglucosylase activity is preferentially directed towards xyloglucan and water-soluble cellulose acetate, rather than to mixed-linkage beta-glucan
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additional information
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free oligosaccharides are probably not the usual acceptor substrates in vivo
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additional information
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acidic polymers, probably acidic arabinogalactan proteins, and/or other apoplastic ions are naturally occurring regulators of the enzyme activity in vivo, and may thus control cell wall assembly, loosening, and growth
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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XET activity catalyses the endo-cleavage of xyloglucan (the donor substrate) and the creation of a glycosidic link between the newly formed potentially reducing terminus and the nonreducing terminus of another xyloglucan (or xyloglucan oligosaccharide) molecule (the acceptor substrate), cleavage specificity, overview
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additional information
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XET activity catalyses the endo-cleavage of xyloglucan (the donor substrate) and the creation of a glycosidic link between the newly formed potentially reducing terminus and the nonreducing terminus of another xyloglucan (or xyloglucan oligosaccharide) molecule (the acceptor substrate), cleavage specificity, overview
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additional information
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free oligosaccharides are probably not the usual acceptor substrates in vivo
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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key enzyme in all plant processes that require cell wall remodeling
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additional information
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key enzyme in all plant processes that require cell wall remodeling
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1-4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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free oligosaccharides are probably not the usual acceptor substrates in vivo
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additional information
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xyloglucan oligosaccharides cause cell wall loosening by enhancing xyloglucan oligosaccharide degrading enzyme activity
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additional information
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free oligosaccharides are probably not the usual acceptor substrates in vivo
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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additional information
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breaks a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan
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