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Results:
1-8
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Results: 8
Authors:
Igamberdiev, AU
Ivlev, AA
Bykova, NV
Threlkeld, CN
Lea, PJ
Gardestrom, P
Citation: Au. Igamberdiev et al., Decarboxylation of glycine contributes to carbon isotope fractionation in photosynthetic organisms, PHOTOSYN R, 67(3), 2001, pp. 177-184
Authors:
Igamberdiev, AU
Ivlev, AA
Bykova, NV
Threlkeld, CN
Lea, PJ
Gardestrom, P
Citation: Au. Igamberdiev et al., Decarboxylation of glycine contributes to carbon isotope fractionation in photosynthetic organisms, PHOTOSYN R, 67(3), 2001, pp. 177-184
Authors:
Igamberdiev, AU
Bykova, NV
Lea, PJ
Gardestrom, P
Citation: Au. Igamberdiev et al., The role of photorespiration in redox and energy balance of photosyntheticplant cells: A study with a barley mutant deficient in glycine decarboxylase, PHYSL PLANT, 111(4), 2001, pp. 427-438
Authors:
Bykova, NV
Moller, IM
Citation: Nv. Bykova et Im. Moller, Involvement of matrix NADP turnover in the oxidation of NAD(+)-linked substrates by pea leaf mitochondria, PHYSL PLANT, 111(4), 2001, pp. 448-456
Authors:
Ivlev, AA
Igamberdiev, AU
Threlkeld, C
Bykova, NV
Citation: Aa. Ivlev et al., Carbon isotope effects in the glycine decarboxylase reaction in vitro on mitochondria from pea and spinach, RUSS J PL P, 46(5), 1999, pp. 653-660
Authors:
Igamberdiev, AU
Bykova, NV
Kleczkowski, LA
Citation: Au. Igamberdiev et al., Origins and metabolism of formate in higher plants, PL PHYS BIO, 37(7-8), 1999, pp. 503-513
Authors:
Bykova, NV
Rasmusson, AG
Igamberdiev, AU
Gardestrom, P
Moller, IM
Citation: Nv. Bykova et al., Two separate transhydrogenase activities are present in plant mitochondria, BIOC BIOP R, 265(1), 1999, pp. 106-111
Authors:
Agius, SC
Bykova, NV
Igamberdiev, AU
Moller, IM
Citation: Sc. Agius et al., The internal rotenone-insensitive NADPH dehydrogenase contributes to malate oxidation by potato tuber and pea leaf mitochondria, PHYSL PLANT, 104(3), 1998, pp. 329-336
Risultati:
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