Soybean
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Starting at $89.00
Immunogen: AT2G07768 F4IL90 Synonyms: CCMFN2, CCB203, Cytochrome c biogenesis orf203, CC6BN2 Background:
CCMFN2 is located in the mitochondrial membrane which has been shown to be present in a number of unidentified complexes including a 500-KDa complex postulated to have heme lyase activity, in which another protein (AtCCMH, AT1G15220) is also involved. -
Starting at $89.00
Immunogen: AT3G54180 P25859 Synonyms: CDKB1;1, CDC2-LIKE GENE, CDC2B, CYCLIN-DEPENDENT KINASE B1;1 Background:
Arabidopsis homolog of yeast cdc2, a protein kinase (cyclin-dependent kinase) that plays a central role in control of the mitotic cell cycle. It may control G2/M (mitosis) phase progression. It plays a role in regulating seedling growth in darkness via regulation of hypocotyl cell elongation and cotyledon cell development. -
Starting at $89.00
Immunogen: ATMG00960 Q33884 Synonyms: CCMFN2, CCB203, Cytochrome c biogenesis orf203, CC6BN2 Background:
CCMFN2 is located in the mitochondrial membrane which has been shown to be present in a number of unidentified complexes including a 500-KDa complex postulated to have heme lyase activity, in which another protein (AtCCMH, AT1G15220) is also involved. -
Starting at $89.00
Immunogen: AT3G53260 P45724 Synonyms: PAL1/2/4, ATPAL1/2/4 Background:
Phenylalanine ammonia-lyase (PAL) is a key enzyme of plant metabolism catalyzing the first reaction in the biosynthesis from L-phenylalanine of a wide variety of natural products based on the phenylpropane skeleton. Arabidopsis has four PALs: AT2G37040 (PAL1), AT3G53260 (PAL2), AT5G04230 (PAL3) and AT3G10340 (PAL4). -
Starting at $89.00
Immunogen: AT2G37040 P35510 Synonyms: PAL1/2, ATPAL1/2 Background:
Phenylalanine ammonia-lyase (PAL) is a key enzyme of plant metabolism catalyzing the first reaction in the biosynthesis from L-phenylalanine of a wide variety of natural products based on the phenylpropane skeleton. Arabidopsis has four PALs: AT2G37040 (PAL1), AT3G53260 (PAL2), AT5G04230 (PAL3) and AT3G10340 (PAL4). -
Starting at $89.00
Immunogen: AT3G62790 Q9LZI6 Synonyms: AT3G62790, AT2G47690 Background:
Complex I is the largest protein complex of the oxidative phosphorylation system in mitochondrial and it catalyzes NADH-quinone oxidoreduction. Complex I represents the main entrance site for electrons into the respiratory electron transfer chain. In Arabidopsis, Complex I have at least 49 subunits and AT3G62790 may be one of the subunit. -
Starting at $89.00
Immunogen: AT2G47690 O82238 Synonyms: AT3G62790, AT2G47690 Background:
Complex I is the largest protein complex of the oxidative phosphorylation system in mitochondrial and it catalyzes NADH-quinone oxidoreduction. Complex I represents the main entrance site for electrons into the respiratory electron transfer chain. In Arabidopsis, Complex I have at least 49 subunits and AT3G62790 may be one of the subunit. -
Starting at $89.00
Immunogen: ATMG00285 O05000 Synonyms: NAD2, NADH DEHYDROGENASE 2 Background:
Complex I is the largest protein complex of the oxidative phosphorylation system in mitochondrial and it catalyzes NADH-quinone oxidoreduction. Complex I represents the main entrance site for electrons into the respiratory electron transfer chain. In Arabidopsis, Complex I have at least 49 subunits. NAD2 is one of the subunit and contains two protein NAD2A (ATMG00285) and NAD2B (ATMG01320) -
Starting at $89.00
Immunogen: AT2G07751 Q3EC47 Synonyms: NAD3, NADH DEHYDROGENASE 3 Background:
Complex I is the largest protein complex of the oxidative phosphorylation system in mitochondrial and it catalyzes NADH-quinone oxidoreduction. Complex I represents the main entrance site for electrons into the respiratory electron transfer chain. In Arabidopsis, Complex I have at least 49 subunits and NAD3 (ATMG00990) is one of the subunit. -
Starting at $89.00
Immunogen: AT1G76030 P11574 Synonyms: VAB1/3, ATVAB1/3, V-ATPASE B SUBUNIT 1/3 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.