Mitochondria
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Starting at $89.00
Immunogen: AT3G10860 Q9SG91 Synonyms: UCRQ-1 Background:
Mitochondrial ubiquinol-cytochrome c oxidoreductase is also called complex III and it accepts electron from quinol and transferred to cytochrome c. In Arabidopsis mitochondria, ubiquinol-cytochrome c oxidoreductase contains 10 subunits. UCRQ (AT3G10860/AT5G05370) is one of the subunit of Complex III. -
Starting at $89.00
Immunogen: AT1G04630 Q8RWA7 Synonyms: MATERNAL EFFECT EMBRYO ARREST 4, MEE4 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 GRIM-19 (AT2G33220/AT1G04630) may be one of the subunit. -
Starting at $89.00
Immunogen: AT2G33220 O49313 Synonyms: GRIM-19 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 GRIM-19 (AT2G33220/AT1G04630) may be one of the subunit. -
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: AT3G15640 Q9LW15 Synonyms: COX Vb, COX5B-1, COX5B Background:
Cytochrome c oxidase is the last enzyme in the respiratory electron transport chain of mitochondria and it is also called Complex IV. Cytochrome c oxidase receives an electron from each of four cytochrome c molecules, and transfers them to one oxygen molecule, converting molecular oxygen to two molecules of water. In higher plants mitochondria, Complex IV processes 14 subunits. COX Vb (AT3G15640/AT1G80230) is one subunit of the Complex IV. -
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: AT2G26330 Q42371 Synonyms: ERECTA, QRP1, QUANTITATIVE RESISTANCE TO PLECTOSPHAERELLA 1, ER Background:
ERECTA is a receptor protein kinase which is involved in specification of organs originating from the shoot apical meristem. It contains a cytoplasmic protein kinase catalytic domain, a transmembrane region, and an extracellular leucine rich repeat. ER has been identified as a quantitative trait locus for transpiration efficiency by influencing epidermal and mesophyll development, stomatal density and porosity of leaves. It has been implicated in resistance to the bacterium Ralstonia solanacearum and to the necrotrophic fungus Plectosphaerella cucumerina.