ライフサイエンスコーパス: shattering

1 pic dynamical effects (hopping, jumping, and shattering).

2 US81 nuclease, leading to massive chromosome shattering.

3 vLes1) as a gene whose product controls seed shattering.

4 dehiscence zone and consequently reduce pod shattering.

5 s exhibit varied AZ morphology and levels of shattering.

6 ains, affecting mechanical strength and seed shattering.

7 uring crop domestication is the loss of seed shattering.

8 he MADS-box gene, zagl1, associates with ear shattering.

9 t high internal excitation that results from shattering.

10 on of these peptides is solely determined by shattering.

11 netic and thermodynamic trap for gated chain shattering.

12 pecies, we found evolution towards less seed shattering.

13 ng genes play only minor roles in legume pod shattering.

14 sulting in DNA damage and massive chromosome shattering.

15 tosolic nucleases and induces chromothriptic shattering.

16 eating torsion in pod walls that facilitates shattering.

17 Brittle Rachis 1 (TtBtr1) genes controlling shattering, a key domestication trait.

18 selection for its effect on the loss of ear shattering, a key domestication trait.

19 ls undergoing chromosome mis-segregation and shattering after transient inactivation of the spindle a

20 Ironically, however, the shattering allele of SpWRKY appears to be recently evolv

21 sposon insertion in the domesticated loss-of-shattering allele SiLes1-TE (transposable element).

22 The frequency of these resistance pod-shattering alleles is often positively correlated with e

23 t genes lead to transgressive segregation of shattering alleles, producing plants with either enhance

24 in which it is closely associated with seed shattering and dormancy.

25 we analyze two domestication-related traits, shattering and flowering time, in a mapping population d

26 Chromothripsis, the shattering and imperfect reassembly of one (or a few) ch

27 associated with submergence tolerance, seed shattering and plant architecture and found independent

28 enic bases for many canonical traits such as shattering and plant architecture.

29 Chromosome shattering and reassembly resembling chromothripsis (a s

30 The rearrangements arose by chromosome shattering and rejoining as well as by replication-depen

31 non of 'chromothripsis' (massive chromosomal shattering and reorganization) is not unique to cancer c

32 volves, in most cases, localized chromosomal shattering and reorganization, resulting in a dramatical

33 Chromothripsis, the chaotic shattering and repair of chromosomes, is common in cance

34 Long-term consequences of this landscape shattering are inferred to include increased runoff and

35 The sh1 mutant lacks shattering, as expected.

36 , spontaneous or harsh weather-induced fruit shattering at maturity could lead to yield losses from 3

37 Association of seed dormancy with shattering, awn, and black hull and red pericarp colors

38 nc finger transcription factor that promotes shattering by repressing SHAT1-5 expression, thereby red

39 In the first, chromosome shattering (chromothripsis) is produced by mitotic entry

40 sor about 10 kilometres in diameter during a shattering collision 7.5 million years ago.

41 s, chlorophyll degradation, and earlier seed shattering compared with the wild type.

42 ues at three developmental stages in two low-shattering cultivars of aus and temperate japonica domes

43 code a large number of other variables (high shattering dimensionality).

44 preserving the advantages conferred by high shattering dimensionality.

45 odon and led to small seeds and loss of seed shattering during African rice domestication.

46 vestigate the loss of seed dispersal via pod shattering during common bean (Phaseolus vulgaris L.) do

47 tion of the FA pathway suppresses chromosome shattering during mitosis without impacting interphase-a

48 The repeated evolution of high seed shattering during multiple independent de-domestications

49 n development and, thus, contributes to seed shattering from mature fruits.

50 2 and OsXND-1-like, along with certain known shattering genes involved in AZ formation, likely played

51 ume homologs of Arabidopsis thaliana silique shattering genes play only minor roles in legume pod sha

52 a, which were used to identify putative seed-shattering genes.

53 ' sakes as much as her own, Barbie must keep shattering glass ceilings.

54 The distributions of these non-shattering haplotypes among sorghum landraces suggest th

55 igating the molecular mechanisms of seed pod shattering has shown that the basic helix-loop-helix (bH

56 arily responsible for the reduction of grain shattering in rice domestication.

57 Here, we show that seed shattering in sorghum is controlled by a single gene, Sh

58 Here, we show that the transition from shattering in wild soybeans to shattering resistance in

59 the expression of the major regulator of pod shattering, INDEHISCENT, as well as disrupting the auxin

60 Local chromosome shattering involving a single-step catastrophic event (c

61 Resistance to pod shattering is a key domestication-related trait selected

62 A reduction in pod shattering is one of the main components of grain legume

63 omosome micronucleation-dependent chromosome shattering is shown to drive acquisition of segmental de

64 HMP7 pathological axis engendered chromosome shattering known to result from micronuclear rupture.

65 Vaginal fistula is a shattering maternal complication characterized by an ano

66 The results suggest that a shattering mechanism dominates the vaporization dynamics

67 Mutations related to pod shattering modify the twisting force of pod walls or the

68 , including changes in ploidy level, loss of shattering, multiple origins, and domestication outside

69 atic reductions in injection risk behaviors, shattering of cohesive injection networks, and/or broad

70 hree intermediate structures, even after the shattering of crystals into small pieces.

71 Chromothripsis describes the catastrophic shattering of mis-segregated chromosomes trapped within

72 uctures that provoke extensive yet localized shattering of mis-segregated chromosomes.

73 ntributes to the improved sequence coverage: shattering of peptide ions on surfaces opens up a variet

74 s were most probably produced by collisional shattering of precursor objects after capture by Jupiter

75 dispersal by rhizomes and seed dispersal by "shattering" of the mature inflorescence.

76 Shattering opens a variety of dissociation pathways that

77 d legumes suffer serious yield losses due to shattering, particularly under arid conditions.

78 Interestingly, GL4 also controls the seed shattering phenotype like its orthologue SH4 gene in Asi

79 A chain-shattering polymer (CSP) has been proposed as a microdis

80 The continued development of pod-shattering-related functional information will be vital

81 uisitely sensitive to migration-induced cell shattering, releasing interleukin (IL)-1beta that drives

82 roughout interphase, how chromosomes undergo shattering remains unresolved.

83 ansition from shattering in wild soybeans to shattering resistance in cultivated soybeans resulted fr

84 he genetic, molecular, and cellular bases of shattering resistance in soybeans.

85 leles, producing plants with either enhanced shattering resistance or atavistic susceptibility to the

86 of each gene typically showing only partial shattering resistance.

87 ably, the SNP rs.Gm16.29778273 linked to pod-shattering resistance.

88 icated grain legume species contain multiple shattering-resistance genes, with mutants of each gene t

89 og (OsSh1) was subsequently validated with a shattering-resistant mutant, and two maize orthologs (Zm

90 Two genes associated with seed size and shattering showed signatures of selection.

91 The reduction in grain shattering that led to cereal domestication involved gen

92 Shattering the long-held dogma that organolithium chemis

93 Shattering this delicate equilibrium has been the goal o

94 transcription factor, SpWRKY, in conferring shattering to a wild sorghum relative, Sorghum propinquu

95 hree traits: response to climate, a 'loss of shattering' trait that permits mechanical harvest and le

96 Internal energies required for shattering transition are approximately the same for des

97 the dynamics of ion-surface interaction: the shattering transition.

98 Suppression of seed shattering was a key step during crop domestication that

99 Multiple recent record-shattering weather events raise questions about the adeq

100 s and in two genotypes of their derived high-shattering weed groups, Blackhull Awned (BHA) and Spanis

101 replication fork progression and chromosomal shattering were also observed, suggesting replication st

102 Our results indicate that Sh1 genes for seed shattering were under parallel selection during sorghum,

103 flower color, pod color, pubescence, and pod-shattering-were phenotyped in two environments.

104 d expected material behaviors (e.g., a glass shattering when falling to the ground) or unexpected mat

105 cent discovery of a YABBY locus that confers shattering within Sorghum bicolor and other cereals vali

106 tween TORC2 kinase and this yeast chromosome shattering (YCS) we performed phosphoproteomics.