ライフサイエンスコーパス: light reaction

1 ment of its aromatic ring during the initial light reaction.

2 ode and express genes for the photosynthetic light reactions.

3 regulating the ATP/NADPH output ratio of the light reactions.

4 lization and/or access are modulated by PSII light reactions.

5 to use ATP and reductants produced from the light reactions.

6 Calvin cycle activity and increased PPP and light reaction activity under infection, the host NADPH/

7 th and survival due to a severe reduction in light reactions and gas exchange necessary for photosynt

8 roton motive force and the regulation of the light reactions are discussed.

9 n of photosynthetic energy or can arise from light reactions as a result of accumulation of chlorophy

10 tosynthetic modeling from the perspective of light reactions by integrating over the dynamic complexi

11 encoding proteins involved in photosynthetic light reaction, carbon fixation, nitrogen metabolism and

12 many plant-specific processes, including the light reactions, carbon fixation, pigment synthesis, and

13 d requirements on inputs and parameters, the light-reactions-centric, SIF-based biophysical model com

14 coexpressed with phage genes involved in the light reactions, deoxynucleotide biosynthesis, and the P

15 r were observed together with restoration of light reaction during CPR, in each animal that was succe

16 s, wet versus dry glassware, and dark versus lighted reaction environments.

17 l metabolic pathways, such as photosynthesis light reactions, exhibited significant changes in expres

18 d quantitative changes in pupil diameter and light reaction for assessing the efficacy of cardiopulmo

19 In the photosynthesis light reactions, homogalacturonan biosynthesis, and chlo

20 encodes key components of the photosynthetic light reaction machinery as well as the large subunit of

21 ism (amino acids) rather than photosynthetic light reactions (membrane-bound protein) by comparison w

22 The 'light reaction' metabolic pathway was identified as a ma

23 on of photosynthesis, based on a mechanistic light reaction model with the Chla fluorescence of Photo

24 induced the expression of genes involved in light reaction of photosynthesis, light signaling and DN

25 In the light reaction of plant photosynthesis, modulation of el

26 Thylakoid membranes coordinate the light reactions of photosynthesis across multiple scales

27 s poles, yet the proteins that carry out the light reactions of photosynthesis are highly conserved f

28 The light reactions of photosynthesis in individual phototro

29 (FNR) isoforms, the key enzymes linking the light reactions of photosynthesis to carbon assimilation

30 ein synthesis in the chloroplast and for the light reactions of photosynthesis were expressed above m

31 These studies, which focus on the light reactions of photosynthesis, also indirectly provi

32 loroplastic reductive status that suppressed light reactions of photosynthesis, ultimately leading to

33 The light reactions of photosynthesis, which include light-h

34 Hence, N is central to both the dark and light reactions of photosynthesis.

35 dinating the rate of CO(2) fixation with the light reactions of photosynthesis.

36 tion centre-containing complexes driving the light reactions of photosynthesis; PSII performs light-d

37 ere most evident in proteins involved in the light reactions of photosynthesis; the relative abundanc

38 timida induces changes to the photosynthetic light reactions of the chloroplasts it steals from the a

39 (4) light reaction pathway alone in A. thaliana.

40 nthocyannin biosynthesis in A. thaliana; (3) light reaction pathway and Calvin cycle in A. thaliana.

41 strong decrease in abundance of proteins of light reactions (photosynthesis, Calvin cycle, photoresp

42 These proteins were implicated in light reaction, plant hormone pathways and cell-wall-rel

43 the M cells playing more important roles in light reaction, protein synthesis and folding, tetrapyrr

44 Photosynthetic light reactions rely on the proper function of large pro

45 edesign is to reconfigure the photosynthetic light reactions so they can harvest and safely convert e

46 ites, which were not directly connected with light reactions, such as tocopherols, was more influence

47 first site of inhibition was photosynthetic light reactions (the maximal quantum yield of photosyste

48 balanced relative to their production by the light reactions, thereby preventing relative NADPH accum

49 The light reaction time was measured as a reference.

50 es in chloroplasts by linking photosynthetic light reactions to a series of plastid functions.

51 the presence of tripropylamine, generates a light reaction triggered by the application of an electr

52 henotype in which feedback regulation of the light reactions was strongly activated at low light, but

53 ves to adjust to the reduced capacity of the light reaction, while reactive oxygen species defense pr