ライフサイエンスコーパス: cytogenetic analysis

1 trisomy 21 Down's syndrome (as confirmed by cytogenetic analysis).

2 abnormalities of chromosome 6 determined by cytogenetic analysis.

3 l imbalances not detectable with traditional cytogenetic analysis.

4 ultured separately and subjected to standard cytogenetic analysis.

5 ng 235 patients who had undergone successful cytogenetic analysis.

6 mber alterations that had been identified by cytogenetic analysis.

7 adequate for histopathologic examination and cytogenetic analysis.

8 aneuploidy status at higher sensitivity than cytogenetic analysis.

9 ll somatic deletions not evident by standard cytogenetic analysis.

10 omplexity than anticipated from conventional cytogenetic analysis.

11 n was suspected on the basis of conventional cytogenetic analysis.

12 thout relying on the success of conventional cytogenetic analysis.

13 tions often are not detected by conventional cytogenetic analysis.

14 eved a complete response by Southern blot or cytogenetic analysis.

15 ients with and without t(15; 17) on standard cytogenetic analysis.

16 y karyotyping and then by more sophisticated cytogenetic analysis.

17 Cytogenetic analysis and array comparative genomic hybri

18 We performed cytogenetic analysis and de novo genome assembly to exam

19 We studied by cytogenetic analysis and DNA polymorphisms the nature of

20 sed on patient-specific parameters including cytogenetic analysis and gene expression profiling.

21 a greater diagnostic yield than conventional cytogenetic analysis and more efficient risk stratificat

22 mice with mutations in ATM and/or p53 using cytogenetic analysis and mRNA transcriptional profiling.

23 Cytogenetic analysis and single-nucleotide polymorphism-

24 immunohistochemistry combined with classical cytogenetic analysis and spectral karyotyping to investi

25 by comparing our results with findings from cytogenetic analysis and targeted sequencing.

26 , possibly due to the limits of conventional cytogenetic analysis and the presence of different break

27 By applying comparative cytogenetic analysis and whole-chloroplast phylogenetics

28 well-known aberrations detectable mostly by cytogenetic analysis, and these cases are classified as

29 Cytogenetic analysis, array comparative genomic hybridiz

30 pies of this repeat unit are identifiable by cytogenetic analysis as a previously described 8p23.1 eu

31 We conclude that cytogenetic analysis at diagnosis should be used to guid

32 t presence of clonal evolution determined by cytogenetic analysis at progression was prognostic of su

33 gene rearrangements was compared with marrow cytogenetic analysis before the initiation of treatment

34 These results support the use of interphase cytogenetic analysis, but not IgVH, CD38 expression, or

35 Cytogenetic analysis by G-banding did not detect aneuplo

36 High-resolution molecular cytogenetic analysis can now detect deletions or duplica

37 On cell-cycle profiling and cytogenetic analysis, cells derived from Rassf1a(-/-) p5

38 Standard G-band cytogenetic analysis (CG) provides information on approx

39 years); 374 patients (94.7%) had genetic and cytogenetic analysis completed within 7 d and were centr

40 This comparative cytogenetic analysis contributes to our understanding ab

41 as defined by sequencing results instead of cytogenetic analysis, correlated with clinical outcomes.

42 Cytogenetic analysis demonstrated the presence of numero

43 ed non-Hodgkin lymphomas, rendering complete cytogenetic analysis difficult.

44 However, cytogenetic analysis does not always find the translocat

45 Over the years, methods of cytogenetic analysis evolved and became part of routine

46 Standard cytogenetic analysis had been performed pretransplant in

47 In each case, cytogenetic analysis had either failed or had shown no a

48 Previous cytogenetic analysis has revealed frequent losses of chr

49 Classical cytogenetic analysis has shown a unique translocation in

50 Our cytogenetic analysis identified 16 polymorphic inversion

51 In the present study, cytogenetic analysis identified different structural rea

52 analysed using chromatin fibre fluorography, cytogenetic analysis, immunofluorescence, and fluorescen

53 90%), N-myc gene expression in 14 (70%), and cytogenetic analysis in 10 (50%).

54 By integrating mutational and cytogenetic analysis in 1274 CLL samples and using both

55 Cytogenetic analysis indicated that, although gains of c

56 ify patients who had inconclusive results by cytogenetic analysis into risk groups in which clinical

57 We concluded that cytogenetic analysis is a useful diagnostic and prognost

58 One of the known limitations of cytogenetic analysis is the inability to detect genomic

59 d diagnosis was confirmed either by means of cytogenetic analysis, molecular testing, or both.

60 the techniques, we use a recently published cytogenetic analysis of 206 melanoma cases to derive gra

61 Cytogenetic analysis of a subset of HOXB6-induced AMLs r

62 Cytogenetic analysis of acute lymphoblastic leukemia (AL

63 Cytogenetic analysis of acute myeloid leukemia (AML) cel

64 iagnosis of chromosomal abnormality requires cytogenetic analysis of amniotic fetal cells.

65 CML should be monitored routinely by serial cytogenetic analysis of bone marrow until Ph negativity

66 Cytogenetic analysis of cells from 7 sex-mismatched lung

67 Cytogenetic analysis of childhood acute lymphoblastic le

68 Cytogenetic analysis of childhood acute lymphoblastic le

69 Integration of molecular, phylogenetic, and cytogenetic analysis of dispersed repetitive DNA may she

70 We conclude that cytogenetic analysis of ependymomas may help to classify

71 FISH-based methods have greatly enhanced the cytogenetic analysis of hematopoietic and solid tumors a

72 Furthermore, cytogenetic analysis of hepatocytes transplanted from fe

73 Molecular cytogenetic analysis of leukaemic cells by banded karyot

74 who achieved a complete remission after DLI, cytogenetic analysis of marrow cells also demonstrated c

75 escence in situ hybridization studies in the cytogenetic analysis of MM.

76 Cytogenetic analysis of mouse embryonic fibroblasts and

77 Furthermore, cytogenetic analysis of mouse embryonic fibroblasts reve

78 Cytogenetic analysis of MPB collected from AP/BC patient

79 During routine cytogenetic analysis of patients with different manifest

80 overcomes many of the limitations of routine cytogenetic analysis of POC samples while enhancing the

81 Comparative cytogenetic analysis of related species based on individ

82 lasia, or fibrous dysplasia were examined by cytogenetic analysis of short-term cultures and bi-color

83 Our expanded cytogenetic analysis of these families further identifie

84 Importantly, cytogenetic analysis of these tumors indicated that mult

85 Cytogenetic analysis of this group showed a variety of d

86 Cytogenetic analysis of this hybrid revealed multiple ch

87 Here we present molecular and cytogenetic analysis of two cell lines (A and B) derived

88 Cytogenetic analysis of unfractionated marrow and periph

89 Cytogenetic analysis of Wilms tumours (WT) have shown th

90 oietic stem-cell engraftment was verified by cytogenetic analysis or restriction-fragment--length pol

91 Combined with cytogenetic analysis, our data demonstrate that the regr

92 Cytogenetic analysis plays a direct, potentially decisiv

93 y-seven patients with aniridia, referred for cytogenetic analysis predominantly to assess Wilms tumor

94 Genetic and cytogenetic analysis produced eight well-resolved linkag

95 Cytogenetic analysis provides critical information of di

96 graft studies combined with histological and cytogenetic analysis reveal that Separase-induced tumors

97 Cytogenetic analysis revealed a recurrent clonal inversi

98 Cytogenetic analysis revealed clonal chromosome aberrati

99 Cytogenetic analysis revealed clonal karyotypic abnormal

100 Cytogenetic analysis revealed hyperdiploidy, a favourabl

101 Lineage and cytogenetic analysis revealed that bone marrow progenito

102 Cytogenetic analysis revealed that SKEM cells have a hom

103 Cytogenetic analysis revealed the presence of the Philad

104 Traditional cytogenetic analysis revealed trisomy 8 in two cases of

105 Cytogenetic analysis reveals AgHex-1.1 to be encoded by

106 Cytogenetic analysis reveals the identical t(6;11)(p21.1

107 verestimating the degree of response, marrow cytogenetic analysis should be performed when patients a

108 a second unrelated family with signs of PMD, cytogenetic analysis showed a pericentric inversion of t

109 Pollen typing, segregation and cytogenetic analysis showed decreased numbers of crossov

110 f CIN precedes tumor formation, quantitative cytogenetic analysis, SKY analysis, and quantitative cen

111 uencing and centromere mapping combined with cytogenetic analysis, small molecule inhibitors, and gen

112 f the long arm of chromosome 4 detectable by cytogenetic analysis (standard karyotyping), fluorescent

113 Findings from molecular cytogenetic analysis suggest that other genes or genetic

114 By cytogenetic analysis, the t(11;14)(q13;q32) translocatio

115 Cytogenetic analysis using comparative genomic hybridiza

116 d molecular markers on chromosome 1L and (2) cytogenetic analysis using fluorescence in situ hybridiz

117 g especially the results of biodosimetry via cytogenetic analysis using the FISH method.

118 Cytogenetic analysis was an additional useful test in de

119 genetic studies, a result that suggests that cytogenetic analysis was not merely selecting for a mino

120 Cytogenetic analysis was performed on peripheral blood l

121 Cytogenetic analysis was unsuccessful at diagnosis, but

122 Among 3,578 patients with ALL and successful cytogenetic analysis, we identified 35 patients with the

123 ee of allelic loss underestimated by routine cytogenetic analysis, which failed to detect 9 of these

124 Cytogenetic analysis, whole-exome and whole-genome seque

125 PCR-based markers and cytogenetic analysis with genomic in situ hybridisation