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1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
1-alpha-D-galactosyl-myo-inositol + D-pinitol
myo-inositol + galactopinitol A
1-alpha-D-galactosyl-myo-inositol + galactopinitol A
myo-inositol + ciceritol
-
-
i.e. O-alpha-D-galactopyranosyl-(1,6)-O-alpha-D-galactopyranosyl-(1,2)-4-O-methyl-D-chiro-inositol
?
1-alpha-D-galactosyl-myo-inositol + H2O
myo-inositol + D-galactose
1-alpha-D-galactosyl-myo-inositol + melibiose
myo-inositol + alpha-D-galactosyl-6-O-D-galactosyl-alpha-D-glucose
1-alpha-D-galactosyl-myo-inositol + myo-inositol
myo-inositol + 1-alpha-D-galactosyl-myo-inositol
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
1-alpha-D-galactosyl-myo-inositol + stachyose
myo-inositol + verbascose
12.1% activity compared to raffinose
-
?
1-alpha-D-galactosyl-myo-inositol + verbascose
myo-inositol + ajugose
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
alpha-D-galactosyl-D-ononitol + raffinose
D-ononitol + stachyose
alpha-D-galactosyl-D-ononitol + stachyose
D-ononitol + verbascose
9.9% activity compared to 1-alpha-D-galactosyl-myo-inositol
-
?
galactinol + raffinose
?
-
assay at pH 7.0, 25°C, 90 min, reaction terminated by addition of NaOH
-
-
?
galactinol + raffinose
myo-inositol + stachyose
-
assay at pH 7.0, 25°C, 90 min, reaction terminated by addition of NaOH
-
-
?
p-nitrophenyl-alpha-D-galactopyranoside + raffinose
p-nitrophenol + stachyose
-
about 10% activity compared to 1-alpha-D-galactosyl-myo-inositol
-
r
stachyose + stachyose
raffinose + verbascose
-
-
?
additional information
?
-
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
-
ononitol is 1-D-4-O-methyl-myo-inositol
-
r
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
144.6% activity compared to raffinose
-
?
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
ononitol is 1-D-4-O-methyl-myo-inositol
-
?
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
recombinant enzyme
-
?
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
-
ononitol is 1-D-4-O-methyl-myo-inositol
-
r
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
ononitol is 1-D-4-O-methyl-myo-inositol
-
?
1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
-
biosynthesis of galactosylononitol
-
-
?
1-alpha-D-galactosyl-myo-inositol + D-pinitol
myo-inositol + galactopinitol A
-
D-pinitol is 1-D-3-O-methyl-chiro-inositol
i.e. O-alpha-D-galactopyranosyl-(1,2)-4-O-methyl-D-chiro-inositol
r
1-alpha-D-galactosyl-myo-inositol + D-pinitol
myo-inositol + galactopinitol A
11.2% activity compared to raffinose
i.e. O-alpha-D-galactopyranosyl-(1,2)-4-O-methyl-D-chiro-inositol
?
1-alpha-D-galactosyl-myo-inositol + D-pinitol
myo-inositol + galactopinitol A
D-pinitol is 1-D-3-O-methyl-chiro-inositol
i.e. O-alpha-D-galactopyranosyl-(1,2)-4-O-methyl-D-chiro-inositol
?
1-alpha-D-galactosyl-myo-inositol + H2O
myo-inositol + D-galactose
-
hydrolysis
-
?
1-alpha-D-galactosyl-myo-inositol + H2O
myo-inositol + D-galactose
hydrolysis
-
?
1-alpha-D-galactosyl-myo-inositol + melibiose
myo-inositol + alpha-D-galactosyl-6-O-D-galactosyl-alpha-D-glucose
-
10% activity compared to raffinose
i.e. manninotriose
ir
1-alpha-D-galactosyl-myo-inositol + melibiose
myo-inositol + alpha-D-galactosyl-6-O-D-galactosyl-alpha-D-glucose
-
25% activity compared to raffinose
-
-
?
1-alpha-D-galactosyl-myo-inositol + myo-inositol
myo-inositol + 1-alpha-D-galactosyl-myo-inositol
-
exchange reaction
-
r
1-alpha-D-galactosyl-myo-inositol + myo-inositol
myo-inositol + 1-alpha-D-galactosyl-myo-inositol
-
several isomeric inositols and inositol O-methyl-ethers are substrates, some are inactive, overview
-
r
1-alpha-D-galactosyl-myo-inositol + myo-inositol
myo-inositol + 1-alpha-D-galactosyl-myo-inositol
-
2.25fold increased activity compared to raffinose
-
r
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
seasonal variations in metabolism of raffinose family oligosaccharides, i.e. RFO
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
intracellular compartmentation of raffinose family oligosaccharide metabolism
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
involved in biosynthesis of sucrosyl-oligosaccharides
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
r
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
native and recombinant enzyme
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
i.e. galactinol
-
?
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
-
sequoyitol is 5-O-methyl-myo-inositol
-
?
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
sequoyitol is 5-O-methyl-myo-inositol
-
?
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
156.6% activity compared to raffinose
-
?
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
-
sequoyitol is 5-O-methyl-myo-inositol
-
?
1-alpha-D-galactosyl-myo-inositol + sequoyitol
myo-inositol + alpha-D-galactosyl-sequoyitol
-
1.3fold increased activity compared to raffinose
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-D-ononitol + raffinose
D-ononitol + stachyose
65.8% activity compared to 1-alpha-D-galactosyl-myo-inositol
-
?
alpha-D-galactosyl-D-ononitol + raffinose
D-ononitol + stachyose
-
-
-
?
alpha-D-galactosyl-D-ononitol + raffinose
D-ononitol + stachyose
recombinant enzyme
-
?
additional information
?
-
-
stachyose is synthesized in different tissues, depending on its physiological fate, storage stachyose is synthesized in the mesophyll cell cytosol, from which it is immediately uptaken into the vacuole for elongation and storage, transport stachyose is synthesized in the intermediary cells
-
-
?
additional information
?
-
-
the multifunctional enzyme is a raffinose and high affinity stachyose synthase, EC 2.4.1.82 and EC 2.4.1.67, as well as stachyose and galactinol specific galactosylhydrolase
-
-
?
additional information
?
-
-
the multifunctional enzyme is a raffinose and high affinity stachyose synthase, EC 2.4.1.82 and EC 2.4.1.67, as well as stachyose and galactinol specific galactosylhydrolase
-
-
?
additional information
?
-
-
high donor specificity: UDP-galactose or melibiose are no galactosyl-donors
-
-
?
additional information
?
-
-
no substrates are sucrose, maltose, fructose, cellobiose, gentiobiose, melizitose, trehalose
-
-
?
additional information
?
-
-
no substrates: lactose, glucose, maltotriose, manninotriose
-
-
?
additional information
?
-
-
substrate specificity, overview
-
-
?
additional information
?
-
-
no substrates are sucrose, maltose, fructose, cellobiose, gentiobiose, melizitose, trehalose
-
-
?
additional information
?
-
-
poor substrates are glucose, galactose, lactose
-
-
?
additional information
?
-
-
glycerol is no substrate
-
-
?
additional information
?
-
native and recombinant enzyme show similar activity
-
-
?
additional information
?
-
-
native and recombinant enzyme show similar activity
-
-
?
additional information
?
-
sucrose is no acceptor substrate
-
-
?
additional information
?
-
-
sucrose is no acceptor substrate
-
-
?
additional information
?
-
-
substrate specificity, overview
-
-
?
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1-alpha-D-galactosyl-myo-inositol + D-ononitol
myo-inositol + alpha-D-galactosyl-D-ononitol
-
biosynthesis of galactosylononitol
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
additional information
?
-
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
seasonal variations in metabolism of raffinose family oligosaccharides, i.e. RFO
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
intracellular compartmentation of raffinose family oligosaccharide metabolism
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
involved in biosynthesis of sucrosyl-oligosaccharides
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
1-alpha-D-galactosyl-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
alpha-D-galactosyl-(1->3)-1D-myo-inositol + raffinose
myo-inositol + stachyose
-
-
-
-
?
additional information
?
-
-
stachyose is synthesized in different tissues, depending on its physiological fate, storage stachyose is synthesized in the mesophyll cell cytosol, from which it is immediately uptaken into the vacuole for elongation and storage, transport stachyose is synthesized in the intermediary cells
-
-
?
additional information
?
-
-
the multifunctional enzyme is a raffinose and high affinity stachyose synthase, EC 2.4.1.82 and EC 2.4.1.67, as well as stachyose and galactinol specific galactosylhydrolase
-
-
?
additional information
?
-
-
the multifunctional enzyme is a raffinose and high affinity stachyose synthase, EC 2.4.1.82 and EC 2.4.1.67, as well as stachyose and galactinol specific galactosylhydrolase
-
-
?
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0.00011
-
minor-vein-enriched fraction
0.0004167
-
value about, after 6 days of cold treatment and 250 micromol/l exogenous abscisic acid
0.004167
-
value about, after 6 days of cold treatment and 50 micromol/l exogenous abscisic acid
0.00458
-
value about, after 6 days of cold treatment and 150 micromol/l exogenous abscisic acid
0.0083
-
value about, mesocarp tissue, 8 days after anthesis
0.01167
-
value about, mesocarp tissue, day of anthesis
0.0125
-
value about, leaf, 4 days after anthesis
0.013
-
value about, mesocarp tissue, 2 days before anthesis
0.0167
-
value about, leaf, 8 days after anthesis
0.0185
-
partially purified enzyme
0.02
recombinant enzyme in Sf21 cells, substrates galactosylononitol and raffinose
0.02083
-
value about, leaf, 20 days after anthesis
0.025
-
value about, leaf, 16 days after anthesis
0.02917
-
value about, leaf, 12 days after anthesis
0.04167
-
value about, mesocarp tissue, 20 days after anthesis
0.045
recombinant enzyme in Sf21 cells, substrates 1-alpha-D-galactosyl-myo-inositol and D-ononitol
0.05
recombinant enzyme in Sf21 cells, substrates 1-alpha-D-galactosyl-myo-inositol and raffinose
0.28
-
purified recombinant enzyme, pH 7.0, 25°C
1.3
-
purified enzyme, substrates: 1-alpha-D-galactosyl-myo-inositol + D-ononitol
0.00167
-
value about, cold-sensitve cultivar, Guonong No. 41, grown under low temperature for 9 days
0.00167
-
value about, cold-tolerant cultivar, Guonong No. 25, grown under normal temperature
0.0033
-
value about, cold-sensitve cultivar, Guonong No. 41, grown under low temperature for 3 days
0.0033
-
value about, cold-tolerant cultivar, Guonong No. 25, grown under low temperature for 3 days
0.0067
-
value about, cold-sensitve cultivar, Guonong No. 41, grown under normal temperature
0.0067
-
value about, leaf, 2 days before anthesis
0.0067
-
value about, mesocarp tissue, 12 days after anthesis
0.0067
-
value about, mesocarp tissue, 16 days after anthesis
0.01
-
value about, leaf, day of anthesis
0.01
-
value about, mesocarp tissue, 4 days after anthesis
additional information
-
changes in enzyme activity during leaf development
additional information
-
intracellular distribution of the activity
additional information
-
activity is increased during cold-adaptation
additional information
-
activity is increased during cold-adaptation
additional information
-
reaction kinetics
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malfunction
-
metabolite phenotype of DELTAAtRS4 mutant seeds, overview
malfunction
-
metabolite phenotype of DELTAAtRS4 mutant seeds, overview
-
metabolism
-
stachyose biosynthesis
metabolism
-
biosynthesis of RFOs proceeds by stepwise transfer of galactosyl units. The second step involves raffinose synthase, AtRS5, EC 2.4.1.82, which transfers the galactosyl unit from galactinol to the C6 position of the glucose unit in sucrose forming an alpha-1,6-galactosidic linkage to yield the trisaccharide raffinose. In a third step, stachyose synthase, AtRS4, EC 2.4.1.67, transfers the galactosyl moiety from galactinol to the C6 position of the galactose unit in raffinose to yield the tetrasaccharide stachyose
metabolism
-
the enzyme is responsible for stachyose biosynthesis
metabolism
-
biosynthesis of RFOs proceeds by stepwise transfer of galactosyl units. The second step involves raffinose synthase, AtRS5, EC 2.4.1.82, which transfers the galactosyl unit from galactinol to the C6 position of the glucose unit in sucrose forming an alpha-1,6-galactosidic linkage to yield the trisaccharide raffinose. In a third step, stachyose synthase, AtRS4, EC 2.4.1.67, transfers the galactosyl moiety from galactinol to the C6 position of the galactose unit in raffinose to yield the tetrasaccharide stachyose
-
physiological function
-
the enzyme protects the thylakoid but not the plasma membrane during freezing by stachyose production
physiological function
-
AtRS4 is the only stachyose synthase in the genome of Arabidopsis thaliana. Stachyose synthase is an important enzyme involved in the biosynthesis of raffinose family oligosaccharides, which occur frequently in higher plants. The enzyme represents a key regulation mechanism in the raffinose family oligosaccharide physiology of Arabidosis thaliana due to its multifunctional enzyme activity. AtRS4 is possibly the second seed-specific raffinose synthase beside AtRS5, which is responsible for raffinose accumulation under abiotic stress
physiological function
STS is involved in phloem loading of cucumber leaves, showing reductions in STS activity and stachyose content along with a small amount of starch accumulation in leaves. After 6°C low temperature stress, malondialdehyde content and electrical conductivity increase, especially in STS-RNAi plants. STS expression is up-regulated, STS activity and stachyose level increase, the activities of reactive-oxygen-scavenging enzyme in cucumber seedlings improve significantly and starch accumulation reduces in STS overexpressing lines
physiological function
-
AtRS4 is the only stachyose synthase in the genome of Arabidopsis thaliana. Stachyose synthase is an important enzyme involved in the biosynthesis of raffinose family oligosaccharides, which occur frequently in higher plants. The enzyme represents a key regulation mechanism in the raffinose family oligosaccharide physiology of Arabidosis thaliana due to its multifunctional enzyme activity. AtRS4 is possibly the second seed-specific raffinose synthase beside AtRS5, which is responsible for raffinose accumulation under abiotic stress
-
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Tanner, W.
Die Biosynthese der Stachyose
Ber. Dtsch. Bot. Ges.
80
111
1967
Phaseolus vulgaris
-
brenda
Gaudreault, P.R.; Webb, J.A.
Stachyose synthesis in leaves of Cucurbita pepo
Phytochemistry
20
2629-2633
1981
Cucurbita pepo
-
brenda
Schmitz, K.; Holthaus, U.
Are sucrosyl-oligosaccharides synthesized in mesophyll protoplasts of mature leaves of Cucurbita melo ?
Planta
169
529-535
1986
Cucumis melo
brenda
Bachmann, M.; Matile, P.; Keller, F.
Metabolism of the raffinose family oligosaccharides in leaves of Ajuga reptans L.. Cold acclimation, translocation, and sink to source transition: discovery of chain elongation enzyme
Plant Physiol.
105
1335-1345
1994
Ajuga reptans
brenda
Bachmann, M.; Keller, F.
Metabolism of the raffinose family oligosaccharides in leaves of Ajuga reptans L.. Inter- and intracellular compartmentation
Plant Physiol.
109
991-998
1995
Ajuga reptans
brenda
Peterbauer, T.; Richter, A.
Galactosylononitol and stachyose synthesis in seeds of adzuki bean. Purification and characterization of stachyose synthase
Plant Physiol.
117
165-172
1998
Vigna angularis
brenda
Hoch, G.; Peterbauer, T.; Richter, A.
Purification and characterization of stachyose synthase from lentil (Lens culinaris) seeds: galactopinitol and stachyose synthesis
Arch. Biochem. Biophys.
366
75-81
1999
Lens culinaris
brenda
Peterbauer, T.; Mucha, J.; Mayer, U.; Popp, M.; Glossl, J.; Richter, A.
Stachyose synthesis in seeds of adzuki bean (Vigna angularis): molecular cloning and functional expression of stachyose synthase
Plant J.
20
509-518
1999
no activity in Spodoptera frugiperda, Vigna angularis (Q9SBZ0), Vigna angularis
brenda
Peterbauer, T.; Mucha, J.; Mach, L.; Richter, A.
Chain Elongation of raffinose in pea seeds. Isolation, characterization, and molecular cloning of mutifunctional enzyme catalyzing the synthesis of stachyose and verbascose
J. Biol. Chem.
277
194-200
2002
Pisum sativum (Q93XK2), Pisum sativum
brenda
Voitsekhovskaja, O.V.; Rudashevskaya, E.L.; Demchenko, K.N.; Pakhomova, M.V.; Batashev, D.R.; Gamalei, Y.V.; Lohaus, G.; Pawlowski, K.
Evidence for functional heterogeneity of sieve element-companion cell complexes in minor vein phloem of Alonsoa meridionalis
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Alonsoa meridionalis (Q8L5R0), Alonsoa meridionalis
brenda
Meng, F.; Hu, L.; Wang, S.; Sui, X.; Wei, L.; Wei, Y.; Sun, J.; Zhang, Z.
Effects of exogenous abscisic acid (ABA) on cucumber seedling leaf carbohydrate metabolism under low temperature
Plant Growth Regul.
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2008
Cucumis sativus
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brenda
Hu, L.; Meng, F.; Wang, S.; Sui, X.; Li, W.; Wei, Y.; Sun, J.; Zhang, Z.
Changes in carbohydrate levels and their metabolic enzymes in leaves, phloem sap and mesocarp during cucumber (Cucumis sativus L.) fruit development
Sci. Hortic.
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2009
Cucumis sativus
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brenda
Iftime, D.; Hannah, M.A.; Peterbauer, T.; Heyer, A.G.
Stachyose in the cytosol does not influence freezing tolerance of transgenic Arabidopsis expressing stachyose synthase from adzuki bean
Plant Sci.
180
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2011
Vigna angularis
brenda
Egert, A.; Eicher, B.; Keller, F.; Peters, S.
Evidence for water deficit-induced mass increases of raffinose family oligosaccharides (RFOs) in the leaves of three Craterostigma resurrection plant species
Front. Physiol.
6
206
2015
Craterostigma plantagineum
brenda
Gangl, R.; Behmueller, R.; Tenhaken, R.
Molecular cloning of AtRS4, a seed specific multifunctional RFO synthase/galactosylhydrolase in Arabidopsis thaliana
Front. Plant Sci.
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789
2015
Arabidopsis thaliana, Arabidopsis thaliana Col-0
brenda
Qiu, D.; Vuong, T.; Valliyodan, B.; Shi, H.; Guo, B.; Shannon, J.G.; Nguyen, H.T.
Identification and characterization of a stachyose synthase gene controlling reduced stachyose content in soybean
Theor. Appl. Genet.
128
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2015
Glycine max
brenda
Zhang, J.; Gu, H.; Dai, H.; Zhang, Z.; Miao, M.
Alternative polyadenylation of the stacyose synthase gene mediates source-sink regulation in cucumber
J. Plant Physiol.
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Cucumis sativus (A8CM21), Cucumis sativus
brenda
Lue, J.; Sui, X.; Ma, S.; Li, X.; Liu, H.; Zhang, Z.
Suppression of cucumber stachyose synthase gene (CsSTS) inhibits phloem loading and reduces low temperature stress tolerance
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Cucumis sativus (Q45Q19), Cucumis sativus
brenda