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Items: 1 to 20 of 83

1.

Evolution of a new chlorophyll metabolic pathway driven by the dynamic changes in enzyme promiscuous activity.

Ito H, Tanaka A.

Plant Cell Physiol. 2014 Mar;55(3):593-603. doi: 10.1093/pcp/pct203. Epub 2014 Jan 6.

PMID:
24399236
2.

Divinyl chlorophyll(ide) a can be converted to monovinyl chlorophyll(ide) a by a divinyl reductase in rice.

Wang P, Gao J, Wan C, Zhang F, Xu Z, Huang X, Sun X, Deng X.

Plant Physiol. 2010 Jul;153(3):994-1003. doi: 10.1104/pp.110.158477. Epub 2010 May 18.

3.

Identification of a novel vinyl reductase gene essential for the biosynthesis of monovinyl chlorophyll in Synechocystis sp. PCC6803.

Ito H, Yokono M, Tanaka R, Tanaka A.

J Biol Chem. 2008 Apr 4;283(14):9002-11. doi: 10.1074/jbc.M708369200. Epub 2008 Jan 29.

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The major route for chlorophyll synthesis includes [3,8-divinyl]-chlorophyllide a reduction in Arabidopsis thaliana.

Nagata N, Tanaka R, Tanaka A.

Plant Cell Physiol. 2007 Dec;48(12):1803-8. Epub 2007 Nov 7.

PMID:
17991629
8.

Chloroplast biogenesis 92: In situ screening for divinyl chlorophyll(ide) a reductase mutants by spectrofluorometry.

Kolossov VL, Bohnert HJ, Rebeiz CA.

Anal Biochem. 2006 Jan 15;348(2):192-7. Epub 2005 Aug 10.

PMID:
16337140
10.

Making proteins green; biosynthesis of chlorophyll-binding proteins in cyanobacteria.

Sobotka R.

Photosynth Res. 2014 Feb;119(1-2):223-32. doi: 10.1007/s11120-013-9797-2. Epub 2013 Feb 4. Review.

PMID:
23377990
11.

Metabolic engineering of the Chl d-dominated cyanobacterium Acaryochloris marina: production of a novel Chl species by the introduction of the chlorophyllide a oxygenase gene.

Tsuchiya T, Mizoguchi T, Akimoto S, Tomo T, Tamiaki H, Mimuro M.

Plant Cell Physiol. 2012 Mar;53(3):518-27. doi: 10.1093/pcp/pcs007. Epub 2012 Feb 1.

PMID:
22302713
12.

Spectral properties of a divinyl chlorophyll a harboring mutant of Synechocystis sp. PCC6803.

Islam MR, Watanabe K, Kashino Y, Satoh K, Koike H.

Photosynth Res. 2013 Nov;117(1-3):245-55. doi: 10.1007/s11120-013-9877-3. Epub 2013 Jun 29.

PMID:
23812785
13.

Identification of the 7-hydroxymethyl chlorophyll a reductase of the chlorophyll cycle in Arabidopsis.

Meguro M, Ito H, Takabayashi A, Tanaka R, Tanaka A.

Plant Cell. 2011 Sep;23(9):3442-53. doi: 10.1105/tpc.111.089714. Epub 2011 Sep 20.

14.

Artificially acquired chlorophyll b is highly acceptable to the thylakoid-lacking cyanobacterium, Gloeobacter violaceus PCC 7421.

Araki M, Akimoto S, Mimuro M, Tsuchiya T.

Plant Physiol Biochem. 2014 Aug;81:155-62. doi: 10.1016/j.plaphy.2014.01.006. Epub 2014 Jan 27.

PMID:
24508456
15.

Divinyl chlorophyll a in the marine eukaryotic protist Alexandrium ostenfeldii (Dinophyceae).

Rodríguez F, Garrido JL, Sobrino C, Johnsen G, Riobó P, Franco J, Aamot I, Ramilo I, Sanz N, Kremp A.

Environ Microbiol. 2016 Feb;18(2):627-43. doi: 10.1111/1462-2920.13042. Epub 2015 Dec 2.

PMID:
26337730
16.

Evolution of a divinyl chlorophyll-based photosystem in Prochlorococcus.

Ito H, Tanaka A.

Proc Natl Acad Sci U S A. 2011 Nov 1;108(44):18014-9. doi: 10.1073/pnas.1107590108. Epub 2011 Oct 17.

17.

7-Hydroxymethyl chlorophyll a reductase functions in metabolic channeling of chlorophyll breakdown intermediates during leaf senescence.

Sakuraba Y, Kim YS, Yoo SC, Hörtensteiner S, Paek NC.

Biochem Biophys Res Commun. 2013 Jan 4;430(1):32-7. doi: 10.1016/j.bbrc.2012.11.050. Epub 2012 Nov 27.

18.

One divinyl reductase reduces the 8-vinyl groups in various intermediates of chlorophyll biosynthesis in a given higher plant species, but the isozyme differs between species.

Wang P, Wan C, Xu Z, Wang P, Wang W, Sun C, Ma X, Xiao Y, Zhu J, Gao X, Deng X.

Plant Physiol. 2013 Jan;161(1):521-34. doi: 10.1104/pp.112.208421. Epub 2012 Nov 15.

19.

Chlorophyllide a oxidoreductase works as one of the divinyl reductases specifically involved in bacteriochlorophyll a biosynthesis.

Harada J, Mizoguchi T, Tsukatani Y, Yokono M, Tanaka A, Tamiaki H.

J Biol Chem. 2014 May 2;289(18):12716-26. doi: 10.1074/jbc.M113.546739. Epub 2014 Mar 17.

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