ライフサイエンスコーパス: first meiotic division

1 s) must recognize each other and pair in the first meiotic division.

2 ehave as a single functional unit during the first meiotic division.

3 omologous chromosomes during prophase of the first meiotic division.

4 recombine to undergo segregation during the first meiotic division.

5 sures accurate chromosome segregation at the first meiotic division.

6 ensure proper chromosome segregation in the first meiotic division.

7 n crossovers (COs) required for a successful first meiotic division.

8 the stage for chromosome segregation at the first meiotic division.

9 l for accurate chromosome segregation at the first meiotic division.

10 rossover to ensure proper segregation at the first meiotic division.

11 ed for their accurate segregation during the first meiotic division.

12 he correct segregation of chromosomes at the first meiotic division.

13 ng meiotic prophase, before metaphase of the first meiotic division.

14 lian oocytes are arrested in prophase of the first meiotic division.

15 nation in order to segregate properly at the first meiotic division.

16 inizing hormone surge induces entry into the first meiotic division.

17 MPF activation and a delay of entry into the first meiotic division.

18 rkers but halts before the completion of the first meiotic division.

19 hormone (LH) surge induces reentry into the first meiotic division.

20 that ensure their proper segregation at the first meiotic division.

21 s for DNA breaks can persist at least to the first meiotic division.

22 centromeres and thus also segregates at the first meiotic division.

23 nd brings together products separated at the first meiotic division.

24 act to facilitate homolog segregation at the first meiotic division.

25 mosomes segregate from one another after the first meiotic division.

26 causes an arrest in sporulation prior to the first meiotic division.

27 any spermatid differentiation and before the first meiotic division.

28 ure proper segregation of chromosomes at the first meiotic division.

29 rogressing to metaphase I and attempting the first meiotic division.

30 I and frequently enter interphase after the first meiotic division.

31 segregation of homologous chromosomes at the first meiotic division.

32 ir and then segregate from each other at the first meiotic division.

33 e accurate segregation of chromosomes at the first meiotic division.

34 es are present as unpaired univalents at the first meiotic division.

35 sting that MUM4 functions at or prior to the first meiotic division.

36 TA2-HTB2/HTA2-HTB2 mutant arrests before the first meiotic division.

37 ons and enabling accurate segregation at the first meiotic division.

38 be analyzed, missegregation occurred at the first meiotic division.

39 r protein stability regulates entry into the first meiotic division.

40 of the sporulating diploids arrest after the first meiotic division.

41 rowing oocyte prior to the completion of the first meiotic division [4].

42 mechanism for the control of entry into the first meiotic division: an Emi1-dependent inhibition of

43 At the first meiotic division, anaphase-promoting complex/cyclo

44 r accurate chromosome segregation during the first meiotic division and constitutes a key repair and

45 remeiotic DNA synthesis, arrest prior to the first meiotic division and fail to sporulate.

46 hat aneuploidy occurred primarily during the first meiotic division and involved premature sister chr

47 ses in prometaphase I but recovers after the first meiotic division and persists, uniquely for metaph

48 d with severe defects in synapsis during the first meiotic division and reduced meiotic recombination

49 MAPK activity increased just prior to the first meiotic division and remained stable thereafter.

50 s occurs in mid-G2, several hours before the first meiotic division, and before the G2/M transition.

51 s, a high frequency of nondisjunction in the first meiotic division, and essentially unchanged coeffi

52 mutations were present before the end of the first meiotic division, and some mutations were present

53 to a reductive chromosome segregation at the first meiotic division; and plural abnormalities of meio

54 l for accurate chromosome segregation at the first meiotic division as well as for generating genetic

55 ng AMA1 revealed that it is required for the first meiotic division but not the mitotic-like meiosis

56 ed apoptotic response with completion of the first meiotic division, but there is no second meiotic d

57 or the unique segregation of homologs at the first meiotic division, chromosomes undergo dramatic cha

58 During the first meiotic division, crossovers (COs) between homolog

59 2)/p34(cdc2) activity increased prior to the first meiotic division, declined at the onset of anaphas

60 does not proceed beyond the prophase of the first meiotic division due to massive apoptosis associat

61 ed activation of MPF and MAPK, completed the first meiotic division extruding a polar body, and becam

62 During the transition into the first meiotic division, gamma Tub23C became organized as

63 es occurs in mei-38 mutants primarily at the first meiotic division in females but not in males where

64 essential for spermatocyte passage into the first meiotic division in male mice, a function that can

65 ion of chromosomal errors originating at the first meiotic division in men than in women [7].

66 s, the segregation of chromosomes during the first meiotic division is dependent upon at least one cr

67 Progression into the first meiotic division is driven by an increase in the a

68 egation of the univalent X chromosome at the first meiotic division is nonrandom, with preferential r

69 Since the first meiotic division is unaffected by rare achiasmatic

70 The first meiotic division is unique in that homologous pair

71 Segregation of homologs at the first meiotic division (MI) is facilitated by crossovers

72 of chromosome segregation errors during the first meiotic division (MI), which involves the segregat

73 ity to chromosome mis-segregation during the first meiotic division (MI).

74 proper segregation to opposite poles at the first meiotic division (MI).

75 meiotic recombination is complete before the first meiotic division (MI).

76 Phenotypically, the first meiotic division of MOS-/- oocytes frequently rese

77 In Xenopus, after metaphase of the first meiotic division, only partial cyclin degradation

78 long periods of time in the prophase of the first meiotic division (prophase I).

79 Accurate chromosome segregation during the first meiotic division relies on the formation of crosso

80 In the first meiotic division, replicated chromosomes condense

81 ologs, rather than sister chromatids, at the first meiotic division requires the formation of crossov

82 separation of homologous chromosomes at the first meiotic division requires the production of physic

83 Homologue segregation during the first meiotic division requires the proper spatial regul

84 segregation of homologous chromosomes at the first meiotic division requires the tight coordination o

85 age display chromosome nondisjunction at the first meiotic division, resulting in cell death and male

86 segregation of homologous chromosomes at the first meiotic division, resulting in gametes containing

87 ansition from prophase into metaphase of the first meiotic division, resulting in male infertility.

88 Here we show that during the first meiotic division, shortly after nuclear envelope b

89 Before the completion of the first meiotic division, SUMO-1 disappeared from the sex

90 the final mitosis preceding meiosis and the first meiotic division, the kinetochores must be restruc

91 Throughout the first meiotic division, the signal is more dispersed ove

92 acteristic of meiotic prophase I, but at the first meiotic division they segregated their sister chro

93 matids so that they stay together during the first meiotic division (when homologous chromosomes sepa

94 due to a block of spermatogenesis before the first meiotic division, whereas females were normal.

95 ng sequence was removed, arrested before the first meiotic division with a phenotype reminiscent of d