ライフサイエンスコーパス: nitrate assimilation

1 We identified putative genes regulating nitrate assimilation.

2 atalyzes the first and rate-limiting step of nitrate assimilation.

3 ein that catalyzes the rate-limiting step in nitrate assimilation.

4 ted photorespiration also strongly inhibited nitrate assimilation.

5 enoid biosynthesis, starch accumulation, and nitrate assimilation.

6 bolic processes including photosynthesis and nitrate assimilation.

7 is active during both aerobic and anaerobic nitrate assimilation.

8 o be the rate-limiting and regulated step of nitrate assimilation, a major metabolic pathway occurrin

9 af N(2)O emissions were correlated with leaf nitrate assimilation activity, as measured by using the

10 n the nitrate assimilation pathway show that nitrate assimilation and ammonium assimilation are regul

11 ide representation of reductases involved in nitrate assimilation and denitrification were reduced at

12 own generation and scavenging by modulating nitrate assimilation and GSNOR1 activity.

13 s promoted the response to nitrate, enhanced nitrate assimilation and improved biomass and root devel

14 Importantly, lncRNA T5120 can promote nitrate assimilation and plant growth to improve nitroge

15 TCP20 and NLP6&7-dependent up-regulation of nitrate assimilation and signaling genes and down-regula

16 e responses to nitrate availability, linking nitrate assimilation and signaling with cell-cycle progr

17 lated sites on NR and F2KP may regulate both nitrate assimilation and sucrose/starch partitioning in

18 a critical factor in influencing the rate of nitrate assimilation and that (2) NAD status plays a cru

19 ominant step in isotope fractionation during nitrate assimilation and that it drives the (18)epsilon:

20 fermentative metabolism, with a reliance on nitrate assimilation and the urea cycle to help fuel ene

21 f photosynthesis and chlorophyll components, nitrate assimilation and the urea cycle, and synthesis o

22 In Klebsiella oxytoca, enzymes required for nitrate assimilation are encoded by the nasFEDCBA operon

23 a oxytoca (pneumoniae), enzymes required for nitrate assimilation are encoded by the nasFEDCBA operon

24 Enzymes required for nitrate assimilation are encoded by the nasFEDCBA operon

25 ost advantageous configuration tested, where nitrate assimilation (as well as that of ammonium) conti

26 Nitrate assimilation by genotype (Az12;Az70) which is de

27 election experiment, tycheposons harboring a nitrate assimilation cassette were dynamically gained an

28 y sequentially partitioned into niches where nitrate assimilation conferred a fitness benefit.

29 ads to the coastal zone may alter planktonic nitrate assimilation efficiency, due to the narrow stoch

30 Genes involved in nitrate assimilation, energy metabolism, and pentose-pho

31 Nitrate assimilation genes are absent in basal lineages

32 niche partitioning set the stage for loss of nitrate assimilation genes from basal lineages as they s

33 e of a genomic island containing nitrite and nitrate assimilation genes in uncultured Prochlorococcus

34 The distribution of nitrate assimilation genes within clades appears largely

35 In fact, other than genes associated with nitrate assimilation, glucose had a greater effect in re

36 ced by nitrate and were required for maximum nitrate assimilation in barley seedlings.

37 Thus, nitrate assimilation in both dicotyledonous and monocoty

38 VdAtf1 affects ammonium and nitrate assimilation in response to various nitrogen sou

39 ydomonas reinhardtii, the genes required for nitrate assimilation, including the gene encoding nitrat

40 typical of migratory species, in which dark nitrate-assimilation is notably poorer than assimilation

41 Our results suggest that genes involved in nitrate assimilation may be induced by extracellular sen

42 s to divert their newly acquired iron toward nitrate assimilation may underlie why diatoms consistent

43 that, while NIA1 and NII1 are essential for nitrate assimilation, NIA1, NII1, NOL2 and NOL3 are all

44 ved in photosynthesis, cellular respiration, nitrate assimilation, nitrogen fixation, and reactive ox

45 script levels in mutants with defects in the nitrate assimilation pathway show that nitrate assimilat

46 ding proteins involved in photosynthesis and nitrate assimilation pathways show opposite diurnal expr

47 11% of the mNUEGRN, particularly within the nitrate assimilation pathways.

48 ion of the NIT8 gene, which is essential for nitrate assimilation, prevented expression of the gene.

49 These data collectively suggest that nitrate assimilation promotes R. solanacearum virulence

50 For all genotypes, nitrate assimilation rates in the dark were about 55% of

51 id, downregulation of ammonium transport and nitrate assimilation, restriction of protein degradation

52 Moreover, NO derived from nitrate assimilation suppresses the redox enzyme S-nitro

53 acid transporters but found no evidence of a nitrate assimilation system, in agreement with the N pre

54 t cellular processes including regulation of nitrate assimilation through inhibition of phosphorylate

55 ectedly, once bacteria reached xylem tissue, nitrate assimilation was dispensable for growth, virulen

56 growth, photosynthesis, photoinhibition, and nitrate assimilation was examined in the cyanobacterium

57 However, nasA-dependent nitrate assimilation was required for normal production

58 led a higher expression of genes involved in nitrate assimilation when lst8-1 mutants were shifted to

59 S production was significantly influenced by nitrate assimilation when nitrate was not required for g

60 tiered nitrate regulatory network that links nitrate assimilation with carbon and energy metabolism f