Golgi
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Starting at $89.00
Immunogen: AT3G05710 Q9SUJ1 
Synonyms: SYP41/43, ATSYP41/43, ATTLG2A,SYNTAXIN OF PLANTS 41/43 Background:
SYP4 group (SYP41, SYP42, and SYP43) represents the plant orthologs of the Tlg2/syntaxin16 Qa-SNARE (soluble N ethylmaleimide sensitive factor attachment protein receptor) that localizes on the TGN in yeast and animal cells. The SYP4 group regulates the secretory and vacuolar transport pathways in the post-Golgi network and maintains the morphology of the Golgi apparatus and TGN. -
Starting at $89.00
Immunogen: AT5G26980 O65359 
Synonyms: SYP41, ATSYP41, ATTLG2A, SYNTAXIN OF PLANTS 41 Background:
SYP4 group (SYP41, SYP42, and SYP43) represents the plant orthologs of the Tlg2/syntaxin16 Qa-SNARE (soluble N ethylmaleimide sensitive factor attachment protein receptor) that localizes on the TGN in yeast and animal cells. The SYP4 group regulates the secretory and vacuolar transport pathways in the post-Golgi network and maintains the morphology of the Golgi apparatus and TGN. -
Starting at $89.00
Immunogen: AT1G76030 P11574 
Synonyms: VAB1, V-ATPASE B SUBUNIT 1, ATVAB1, VAB3, V-ATPASE B SUBUNIT 3, ATVAB3 Background:
VAB1 is a vacuolar ATP synthase subunit B1 that localizes to the nucleus and specifically interacts with the product of hexokinase 1 (ATHXK1). VAB3 is a vacuolar ATP synthase subunit B1 that binds to and co-localizes with F-actin, bundling and stabilizing actin filaments. -
Starting at $89.00
Immunogen: AT4G38510 Q9SZN1 
Synonyms: ATVAB2, V-ATPASE B SUBUNIT 2, VAB2 Background:
Arabidopsis V-ATPase has three B subunits (AtVAB1, AtVAB2, and AtVAB3), which share 97.27% sequence identity and have two potential actin-binding sites, indicating that these AtVABs may have crucial functions in actin cytoskeleton remodeling and plant cell development. -
Starting at $89.00
Immunogen: AT1G20260 Q8W4E2 
Synonyms: VAB3, V-ATPASE B SUBUNIT 3, ATVAB3 Background:
Arabidopsis V-ATPase has three B subunits (AtVAB1, AtVAB2, and AtVAB3), which share 97.27% sequence identity and have two potential actin-binding sites, indicating that these AtVABs may have crucial functions in actin cytoskeleton remodeling and plant cell development.




