ライフサイエンスコーパス: chromosome painting

1 ing oligonucleotide-based haplotype-specific chromosome painting.

2 ls were traced in female recipient mice by Y chromosome painting.

3 ive homology with human has been revealed by chromosome painting.

4 ed at the cytogenetic level by cross species chromosome painting.

5 types can now be seen with the technique of chromosome painting.

6 lease (e.g., DNase I) digestion, followed by chromosome painting.

7 sparse replacement of previous model-based 'chromosome painting' algorithms to identify recently sha

8 Chromosome painting allows the visualization of individu

9 Finally, karyotype and chromosome painting analyses showed no evidence for TCR

10 ee times the number observed with reciprocal chromosome painting analyses.

11 We conducted comparative chromosome painting analysis in six different Citrus and

12 We integrated the chromosome painting analysis of Eumuroida rodents invest

13 mission to zygotes by using a combination of chromosome painting and 4',6-diamidino-2-phenylindole st

14 Comparative chromosome painting and cytogenetic mapping of 15 zebra

15 tween chicken and turkey based on reciprocal chromosome painting and mapping of 338 chicken BACs to t

16 gists, 150 provided a blood sample for whole chromosome painting and were interviewed about past X-ra

17 sicaceae tribes were analyzed by comparative chromosome painting and/or whole-transcriptome analysis

18 ific DNA, fluorescent in situ hybridization (chromosome painting) and image analysis.

19 nt decades, comparative chromosomal banding, chromosome painting, and gene-order studies have shown s

20 h populations with no difference detected by chromosome painting, and overall, a larger number of sig

21 Here, we have developed two different chromosome-painting approaches to address how chromosome

22 We present the first report of reciprocal chromosome painting between humans and a rodent.

23 Each genome underwent chromosome painting by use of ChromoPainter within FineS

24 respective gene and BAC maps, in addition to chromosome painting data.

25 from multiple mammalian species coupled with chromosome-painting data provide a powerful resource for

26 hromosome number is constant and comparative chromosome painting demonstrated there to be very few in

27 summarize recent developments of multicolor chromosome painting, describe applications in basic chro

28 standard cytological staining, cross-species chromosome painting, DNA probe analyses, and scanning el

29 he established prerequisites for comparative chromosome painting enable future studies on the chromos

30 the results from this method with data from chromosome painting experiments to produce a map of an e

31 ined from karyotype analysis via comparative chromosome painting experiments.

32 segments were confirmed in new cross-species chromosome-painting experiments (dog-on-human, fox-on-hu

33 using bacterial artificial chromosome-based chromosome painting, genomic in situ hybridization, and

34 Oligonucleotide-based chromosome painting has become a powerful tool of cytoge

35 Recent studies using chromosome painting have helped to identify DNA double-s

36 ta, human homologue positions, and human-cat chromosome painting homologies.

37 of this secondarily generated tissue using Y chromosome painting in chimaeric mice indicates that onc

38 Chromosome painting in placental mammalians illustrates

39 Cross-species chromosome painting is a powerful technique for establis

40 Here the protocol for cross-species chromosome painting is presented.

41 strate that the rearrangements visualized by chromosome painting, mostly translocations, are only a f

42 hromosomes were measured with 24-color whole-chromosome painting (multiplex FISH), after damage to in

43 Chromosome painting of 56 accessions of Ae. tauschii fro

44 plantation confirmed a progenitor source and chromosome painting of labelled donor cells revealed tra

45 Chromosome painting of SWS620 mutants revealed that the

46 studies using a chromosome 5-specific whole chromosome painting probe and a 5q subtelomeric probe to

47 The chromosome painting probes and molecular markers generat

48 We have developed a complete set of 19 chromosome painting probes based on the reference genome

49 The oligo-based chromosome painting probes consisted of approximately 26

50 We developed oligo-based chromosome painting probes for all 10 chromosomes in Sac

51 We developed oligonucleotide-based chromosome painting probes for all nine chromosomes in C

52 We have developed bovine chromosome painting probes for Xp and Xq to assess segme

53 e hybridization of 24 fluorescently labelled chromosome painting probes that allows the simultaneous

54 es hybridization of 24 fluorescently labeled chromosome painting probes to metaphase spreads in such

55 Whole-chromosome painting probes were developed for each of th

56 For karyotype analysis, a pool of human chromosome painting probes, each labelled with a differe

57 The simultaneous hybridization of multiple chromosome painting probes, each tagged with a specific

58 fter FISH with differentially labelled mouse chromosome painting probes.

59 n cohybridization of combinatorially labeled chromosome-painting probes with unique fluorochrome sign

60 man and dog using bidirectional heterologous chromosome painting (reciprocal Zoo-FISH) analysis.

61 Chromosome 'painting' refers to the hybridization of flu

62 r Ras genes, although karyotype analysis and chromosome painting revealed the consistent presence of

63 Chromosome painting revealed the distribution of transpo

64 Chromosome painting reveals that these X and Y chromosom

65 sease-specific aberrations; and (b) by using chromosome painting so that many more metaphases could b

66 notyping of single nucleotide polymorphisms, chromosome painting, Southern blotting and restriction f

67 ents among different Carnivora species using chromosome painting strategies.

68 reviously seen in dog-on-human cross-species chromosome-painting studies.

69 We used comparative chromosome painting to identify the extent of chromosoma

70 rial artificial chromosome-based comparative chromosome painting uncovered a constancy of genome stru

71 Chromosome painting using human chromosome 1 probes iden

72 Comparative chromosome painting using Hylaeamys megacephalus (HME) w

73 arrikeri 2n = 26 and L. schulzi 2n = 26), by chromosome painting using whole chromosome probes from P

74 Multidirectional chromosome painting, using probes from homologs to chrom

75 Techniques such as whole chromosome painting (WCP) have effectively expanded our

76 Using phylogenomic analyses and in silico chromosome painting, we show that each oak strain is mor