Literature summary for 7.1.2.1 extracted from

Kim, H.; Oh, J.; Luan, S.; Carlson, J.; Ahn, S.
Cold stress causes rapid but differential changes in properties of plasma membrane H+-ATPase of camelina and rapeseed (2013), J. Plant Physiol., 170, 828-837.

Search for more literature for 7.1.2.1

Activating Compound

Activating Compound	Comment	Organism	Structure
additional information	activity and translation of the plasma membrane H+-ATPase, as well as 14-3-3 proteins, increases after 3 days of cold stress. The increase in H+-ATPase activity during recovery for 2 h at 25°C is less pronounced, followed by decay to background levels within 24 h. H+-pumping increases after 15 min recovery. An increase in phosphorylation levels parallels the increase in H+-transport rate	Brassica napus
additional information	activity and translation of the plasma membrane H+-ATPase, as well as 14-3-3 proteins, increases after 3 days of cold stress. The increase in H+-ATPase activity is most dramatic in Camelina roots after recovery for 2 h at 25°C, followed by decay to background levels within 24 h. H+-pumping increases after 15 min recovery. An increase in phosphorylation levels parallels the increase in H+-transport rate	Camelina sativa

Molecular Weight [Da]

Molecular Weight [Da]	Molecular Weight Maximum [Da]	Comment	Organism
100000	-	x * 100000, SDS-PAGE	Brassica napus
100000	-	x * 100000, SDS-PAGE	Camelina sativa

Organism

Organism	UniProt	Comment	Textmining
Brassica napus	-	-	-
Camelina sativa	-	-	-

Posttranslational Modification

Posttranslational Modification	Comment	Organism
phosphoprotein	after cold stress, increase in phosphorylation levels parallels the increase in H+-transport rate	Brassica napus
phosphoprotein	after cold stress, increase in phosphorylation levels parallels the increase in H+-transport rate	Camelina sativa

Subunits

Subunits	Comment	Organism
?	x * 100000, SDS-PAGE	Brassica napus
?	x * 100000, SDS-PAGE	Camelina sativa

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Release 2023.1 (January 2023)