ライフサイエンスコーパス: main stem

1 pe, possibly owing to a faster growth of the main stem.

2 ated with a failure to increase auxin in the main stem.

3 btained after cannulation of the portal vein main stem.

4 s is typically performed via the portal vein main stem.

5 rbon, nutrients and pollutants to the Amazon main stem.

6 d plants without affecting auxin flow in the main stem.

7 ation and export from axillary buds into the main stem.

8 , termed canalized auxin transport, into the main stem.

9 e primary shoot apex is transported down the main stem and inhibits the growth of the axillary buds b

10 ort/canalization from axillary buds into the main stem and is enhanced by a low sink for auxin in the

11 pulvinus" is found between the inflorescence main stem and lateral branches.

12 IRNA shows that sequences that form both the main stem and one loop are critical for its translation

13 s in daily streamflow for the Fraser River's main stem and six of its major tributaries over 1949-200

14 s the annual rate of somatic epimutations in main stems and lateral branches of trees.

15 anching only in the presence of auxin in the main stem, and enhances competition between two branches

16 d as a treatment option for unprotected left main stem artery (unprotected left main stem percutaneou

17 n in the polar auxin transport stream of the main stem, as a likely cause for the suppression of basa

18 rtest path to the closest nodes found on the main stem based on the closest path length, thereby assi

19 In a European population with true left main stem bifurcation coronary disease requiring interve

20 gy should remain the default for distal left main stem bifurcation intervention.

21 However, patients with true left main stem bifurcation lesions have been shown in one ded

22 dred and sixty-seven patients with true left main stem bifurcation lesions requiring intervention wer

23 h as leaf area, growth rate, flowering time, main stem branching, rosette branching, and final plant

24 The main-stem bronchi bifurcate from this common structure a

25 of polyp-like structures in the trachea and main-stem bronchi.

26 Although tracheal development was normal, main-stem bronchial formation, as well as all subsequent

27 dobronchial blocker was placed into the left main stem bronchus for lung isolation and application of

28 ) before and during hypoxia produced by left main stem bronchus occlusion (LMBO) in mice with and wit

29 e third patient, stent placement in the left main stem bronchus was needed to relieve left lung atele

30 bres with receptive fields in the trachea or main stem bronchus.

31 ing gross specimens, we found that the right main-stem bronchus was consistently larger in diameter t

32 onsistently larger in diameter than the left main-stem bronchus, though the latter was longer and str

33 r most patients with multivessel and/or left main stem CAD, as well as a significant reduction in sub

34 n most patients with multivessel and/or left main stem CAD.

35 lly in diabetic patients and those with left main-stem CAD, and exhorts the need for a multidisciplin

36 pogenic progenitors cells (FAPs) are the two main stem cell pools.

37 c cell types, trajectory analysis of the two main stem cell populations indicates that one of them is

38 ght be better than PCI for treatment of left main stem coronary artery disease.

39 ith multivessel disease and unprotected left-main stem coronary artery disease.

40 ft anterior descending, multivessel and left main-stem coronary artery disease (CAD) and that these b

41 ntly up-regulated in axillary meristems upon main stem decapitation.

42 ata, we examined whether (1) the morphology (main stem diameter, height, crown width, crown extent, s

43 surgery to have hypercholesterolemia or left main stem disease and were, on average, less obese.

44 factors, multiple coronary vessel, and left main stem disease were more frequent in patients with di

45 hade avoidance syndrome, including increased main stem elongation and reduced branching.

46 ary angiography as >50% stenosis of the left main stem, >70% stenosis in a major coronary vessel, or

47 rrent hypotheses: that auxin moving down the main stem inhibits branch activity by preventing the est

48 irments and a 95 km fish kill zone along the main-stem Klamath River.

49 Fifth main stem leaf samples were harvested at sunrise and sub

50 elocity with intracoronary wires in the left main stem, left anterior descending, and circumflex arte

51 and almost two-thirds of patients with left main stem (LMS) disease have a survival benefit and mark

52 lies to more complex procedures such as left main stem (LMS) PCI.

53 oronary artery disease with unprotected left main stem (LMS) stenosis, coronary artery bypass graftin

54 formational flexibility, while the adjoining main stem-loop adopts a well-defined extended helix inte

55 more than double the free energy of the IGR main stem-loop structure.

56 Overexpression of GmPRR3b(H6) increased main stem node number and yield, while knockout of GmPRR

57 In this study, DOM from the main stem of 10 global rivers covering a wide climatic r

58 des, identifying high intensity nodes as the main stem of our community detection algorithm that act

59 ional normalized ratio (INR) represented the main stem of such protocol.

60 n both optically complex tributaries and the main stem of the Bay.

61 sses, ranging from 0.2 to 500 mum, along the main stem of the Chesapeake Bay estuary.

62 516 EEMs measured in surface waters from the main stem of the Neuse River and its tributaries, locate

63 nance (the concentration of resources in the main stem of the plant and a corresponding suppression o

64 The main stem of the Salmon had elevated SO(4)(2-) concentra

65 detected a high-activity binding site on the main stem of the WNV 3' SL RNA.

66 ecade, with exponential radial growth in the main stems of individual trees correlating positively wi

67 ting the number of sylleptic branches on the main stems of poplar hybrids by a Poisson distribution,

68 We collected main stem or branch cross-sections of 188 angiosperm woo

69 r volume and survival after unprotected left main stem percutaneous coronary intervention (uLMS-PCI)

70 ied all patients undergoing unprotected left main stem percutaneous intervention between 2009 and 201

71 utcomes have improved after unprotected left main stem percutaneous intervention over time.

72 ndicated population, 14 522 unprotected left main stem percutaneous intervention procedures were perf

73 cted left main stem artery (unprotected left main stem percutaneous intervention) disease.

74 nt for resource management within rivers and main-stem reservoirs.

75 ural carbohydrates were assessed in needles, main stems, roots and whole plants, and xylem hydraulic

76 the base, (2) from thin branches toward the main stem's top and base, and (3) from the base toward t

77 bserved difference in the development of the main stem shoot apex between tin and the wild type.

78 Among patients with true bifurcation left main stem stenosis requiring intervention, fewer major a

79 mortality associated with dams; (ii) even if main stem survival were elevated to 100%, Snake River sp

80 identified a cluster of atoms within the D1 main stem that control the rate constant for D135 collap

81 m hydraulic conductivity was measured in the main stems up to 29 d postfire.

82 bsidizing microorganisms in large rivers and main-stem waters.

83 cutaneous coronary intervention (to the left main stem with calcium modification or to a chronic tota

84 ase DOM and increase nitrate delivery to the main stem Yenisei River, and ultimately the Arctic Ocean