Chloroplast
-
Starting at $89.00
Immunogen: AT4G14690 Q94K66 Synonyms: ELIP2, Arabidopsis Elip2, EARLY LIGHT-INDUCIBLE PROTEIN 2 Background:
ELIPs are thought not to be directly involved in the synthesis and assembly of specific photosynthetic complexes, but rather affect the biogenesis of all chlorophyll-binding complexes. A study (PMID 17553115) has shown that the chlorophyll synthesis pathway was downregulated as a result of constitutive ELIP2 expression, leading to decreased chlorophyll availability for the assembly of pigment-binding proteins for photosynthesis. -
Starting at $89.00
Immunogen: AT1G64770 Q94AQ8 Synonyms: NDH45, NAD(P)H DEHYDROGENASE SUBUNIT 45, NDF2, NDH-DEPENDENT CYCLIC ELECTRON FLOW 1, PHOTOSYNTHETIC NDH SUBCOMPLEX B 2, PNSB2 Background:
NDH45 are novel nuclear-encoded subunits of the chloroplast NDH complex and crucial both for the stable structure and function of the NDH complex. NDH45 is involved in cyclic electron flow around photosystem I to produce ATP. The deficiency of either the NDH45 protein in respective mutant plants leads to severe defects in both the accumulation and the function of the NDH complex. -
Starting at $89.00
-
Starting at $89.00
Immunogen: AT1G16880 Q9FZ47 Synonyms: ACR11, ACT DOMAIN REPEATS 11 Background:
ACR11 is a ACT domain-containing protein. The ACT domain, named after bacterial aspartate kinase, chorismate mutase and TyrA (prephenate dehydrogenase), is a regulatory domain that serves as an amino acid-binding site in feedback-regulated amino acid metabolic enzymes. -
Starting at $89.00
Immunogen: AT1G15980 Q9S9N6 Synonyms: NDH48, NAD(P)H DEHYDROGENASE SUBUNIT 48, NDF1, NDH-DEPENDENT CYCLIC ELECTRON FLOW 1, PHOTOSYNTHETIC NDH SUBCOMPLEX B 1, PNSB1 Background:
NDH48 is a novel nuclear-encoded subunit of the chloroplast NDH dehydrogenase complex, involved in cyclic electron flow around photosystem I to produce ATP. NDH48 and NDH45 are crucial both for the stable structure and function of the NDH complex. -
Starting at $89.00
Immunogen: AT4G04850 Q9M0Z3 Synonyms: KEA3, ATKEA3, K+ EFFLUX ANTIPORTER 3 Background:
Arabidopsis thaliana K(+) efflux antiporter (KEA3) is critical for high photosynthetic efficiency under fluctuating light. KEA3 localizes to the thylakoid membrane, and allows proton efflux from the thylakoid lumen by proton/potassium antiport. KEA3’s activity accelerates the downregulation of pH-dependent energy dissipation after transitions to low light, leading to faster recovery of high photosystem II quantum efficiency and increased CO2 assimilation.