ライフサイエンスコーパス: divide asymmetrically

1 needed for certain vulval precursor cells to divide asymmetrically.

2 y described genes, mid1 and pom1, frequently divide asymmetrically.

3 with a defect in leukocyte adhesion fail to divide asymmetrically.

4 heir healthy counterparts that predominantly divide asymmetrically.

5 spindle's position is important for cells to divide asymmetrically.

6 This bacterium divides asymmetrically.

7 iding symmetrically and in sporulating cells dividing asymmetrically.

8 el for exploring differential fate in a cell dividing asymmetrically.

9 del to dissect spindle orientation in a cell dividing asymmetrically.

10 legans, this decision is linked to how cells divide asymmetrically [1, 2].

11 To divide asymmetrically, a cell must position the mitotic

12 iche at the extreme periphery of the CMZ and divide asymmetrically along a radial (peripheral to cent

13 cultures, some retinal neuroepithelial cells divide asymmetrically and distribute Numb to only one of

14 ophila development, neural stem cells (NSCs) divide asymmetrically and generate intermediate progenit

15 In the Drosophila embryo, neuroblasts divide asymmetrically and in a stem cell fashion.

16 Budding yeast divide asymmetrically and must therefore align the posit

17 ss normal and cancer stem cell markers, they divide asymmetrically and they cycle slowly.

18 ding embryos may determine which blastomeres divide asymmetrically and which do not.

19 The bacterium Caulobacter crescentus divides asymmetrically as part of its normal life cycle.

20 Drosophila male germline stem cells (GSCs) divide asymmetrically, balancing self-renewal and differ

21 of Inscuteable (Pins)-G alpha i crescent to divide asymmetrically, but the link between cortical pol

22 nd neuroepithelial cells could be capable of dividing asymmetrically, but in neuroepithelial cells ot

23 Drosophila neuroblasts divide asymmetrically by aligning their mitotic spindle

24 Many cells divide asymmetrically by generating two different cell e

25 stem cells (GSCs) in Drosophila melanogaster divide asymmetrically by orienting the mitotic spindle w

26 Mycobacteria grow and divide asymmetrically, creating variability in growth po

27 The polarities of several cells that divide asymmetrically during Caenorhabditis elegans deve

28 erstanding of how cells become polarized and divide asymmetrically during development.

29 Cell polarity is essential for cells to divide asymmetrically, form spatially restricted subcell

30 Caulobacter crescentus divides asymmetrically generating two distinct cell type

31 basal epidermal cells use their polarity to divide asymmetrically, generating a committed suprabasal

32 Sporulating cells divide asymmetrically, generating a large mother cell an

33 Budding yeast cells divide asymmetrically, giving rise to a mother and its d

34 Mycobacteria elongate and divide asymmetrically, giving rise to significant variat

35 Stem and progenitor cells divide asymmetrically, giving rise to two daughter cells

36 The budding yeast Saccharomyces cerevisiae divides asymmetrically, giving rise to a mother cell and

37 anchors chromosomes to the mitotic spindle, divide asymmetrically in a single postmeiotic lineage.

38 ees to align with the apical-basal axis, and divide asymmetrically in a stem cell-like fashion.

39 Many stem cells divide asymmetrically in order to balance self-renewal w

40 e show that murine memory CD8(+) T cells can divide asymmetrically in response to secondary encounter

41 At the start of gastrulation, the ER divides asymmetrically into a population of asynchronous

42 Caulobacter crescentus divides asymmetrically into a swarmer cell and a stalked

43 The Arabidopsis zygote divides asymmetrically into an embryonic apical cell and

44 One of the simplest organisms to divide asymmetrically is the bacterium Caulobacter cresc

45 an maintain stem identity and the ability to divide asymmetrically, nor show cell-growth defects or u

46 Muller glia, and that each Muller glial cell divides asymmetrically only once to produce an Alcama-ne

47 ologically distinct populations of CSCs that divide asymmetrically or symmetrically in MPeM in vitro

48 icell clones, suggests that some progenitors divide asymmetrically, producing a postmitotic neuron an

49 Germline stem cells divide asymmetrically, producing a self-renewing stem ce

50 em cells, we have studied female GSCs, which divide asymmetrically, producing another GSC and a cysto

51 uding Drosophila germline stem cells (GSCs), divide asymmetrically, producing one stem cell and one d

52 It also divides asymmetrically, producing a mother and swarmer c

53 The bacterium Caulobacter crescentus divides asymmetrically, producing daughter cells with di

54 IM3 expression leads to a greater percentage dividing asymmetrically rather than symmetrically.

55 Stem cells divide asymmetrically, regenerating a parental stem cell

56 In spermatogenesis, each germline stem cell divides asymmetrically, renewing itself and producing a

57 ions of ciprofloxacin the bacterial filament divides asymmetrically repeatedly at the tip.

58 During spore formation, Bacillus subtilis divides asymmetrically, resulting in two cells with diff

59 tarvation and high cell density, B. subtilis divides asymmetrically, resulting in two cells with diff

60 Saccharomyces cerevisiae can divide asymmetrically so that the mother and daughter ce

61 By dividing asymmetrically, stem cells can generate two dau

62 Two of these progenitors divide asymmetrically such that each produces a two-cell

63 The GSCs divide asymmetrically such that one daughter remains in

64 In cells that divide asymmetrically, such as Saccharomyces cerevisiae,

65 Epithelial stem cells divide asymmetrically, such that one daughter replenishe

66 To divide asymmetrically, the mitotic spindle is moved from

67 ative growth, Saccharomyces cerevisiae cells divide asymmetrically: the mother cell buds to produce a

68 After gastrulation, these cells divide asymmetrically; the smaller rostral daughters exh

69 results indicate that if colonic stem cells divide asymmetrically then colon stem cell niches are ma

70 Here, we report that CySCs divide asymmetrically through repositioning the mitotic

71 evelopment, the sensory organ precursor cell divides asymmetrically through differential regulation o

72 Many stem cells divide asymmetrically to balance self-renewal and differ

73 It requires that some blastomeres divide asymmetrically to direct cells to the inside of t

74 hemselves through symmetric divisions and to divide asymmetrically to engender new cells that can pro

75 Z1 and Z4 divide asymmetrically to establish the proximal-distal a

76 on the ability of neural progenitor cells to divide asymmetrically to generate daughter cells that ac

77 in the outer optic analage; the neuroblasts divide asymmetrically to generate ganglion mother cells.

78 al glia, whereas the majority of radial glia divide asymmetrically to generate neurons and radial gli

79 roblasts are stem cell-like progenitors that divide asymmetrically to generate neurons of the adult b

80 somatic gonadal precursor cells, Z1 and Z4, divide asymmetrically to generate one daughter with a pr

81 their progeny, ganglion mother cells (GMCs), divide asymmetrically to generate terminal postmitotic n

82 neural progenitors or neuroblasts (NBs) each divide asymmetrically to produce a larger neuroblast and

83 e as epidermal protuberances (initials) that divide asymmetrically to produce a vacuolate basal cell,

84 cking centrioles and centrosomes, invariably divide asymmetrically to produce cystoblasts that procee

85 osophila ovaries, germline stem cells (GSCs) divide asymmetrically to produce daughter GSCs and cysto

86 glial stem cells of the dorsal telencephalon divide asymmetrically to produce excitatory neurons, but

87 Adult SOPs divide asymmetrically to produce IIa and IIb daughter ce

88 Adult stem cells often divide asymmetrically to produce one self-renewed stem c

89 that rapidly proliferating cancer cells can divide asymmetrically to produce slowly proliferating "G

90 ome copy number is reduced to two, and cells divide asymmetrically to produce the future spore (fores

91 In these regions, neuroblasts (NBs) divide asymmetrically to self-renew and generate differe

92 Drosophila neuroblasts divide asymmetrically to self-renew and generate differe

93 cell self-renewal and differentiation; they divide asymmetrically to self-renew and generate the neu

94 Mammalian neural progenitor cells divide asymmetrically to self-renew and produce a neuron

95 Drosophila larval neuroblasts divide asymmetrically to self-renew, and are a model sys

96 rahedral initial generate leaf initials that divide asymmetrically to self-replace and to produce dau

97 The aquatic bacterium Caulobacter crescentus divides asymmetrically to a flagellated swarmer cell and

98 elegans somatic gonadal precursor cell (SGP) divides asymmetrically to establish gonad-specific coord

99 a oogenesis starts when a germline stem cell divides asymmetrically to generate a daughter germline s

100 luding the male-specific blast cell, B, that divides asymmetrically to generate a larger anterior dau

101 The somatic gonadal precursor (SGP) divides asymmetrically to generate distal and proximal d

102 The Drosophila MP2 precursor divides asymmetrically to generate the dMP2/vMP2 interne

103 Early in sporulation, the cell divides asymmetrically to give two sister compartments,

104 This oligotrophic bacterium divides asymmetrically to produce a motile swarmer cell

105 Caulobacter crescentus divides asymmetrically to produce a non-replicating swar

106 ical daughter cells, is blocked and the cell divides asymmetrically to produce a small, polar prespor

107 subtilis endospore development the bacterium divides asymmetrically to produce two daughter cells.

108 ynamic spindle repositioning allows CySCs to divide asymmetrically while accommodating the structure

109 To test this, cells were induced to divide asymmetrically with the entire spindle segregated

110 ell self-renewal depends on their ability to divide asymmetrically, with one daughter retaining stem

111 mPar3 prevents radial glial progenitors from dividing asymmetrically yet generates different outcomes

112 c environments, Caulobacter crescentus cells divide asymmetrically, yielding a motile swarmer cell an