ライフサイエンスコーパス: chromosomal duplication

1 tic Schwann-cell disorder featuring a 1.4 Mb chromosomal duplication.

2 ed and was demonstrated in 83% of cases with chromosomal duplication.

3 echanisms might lead to allelic deletion and chromosomal duplication.

4 ts that the clusters may have arisen through chromosomal duplication.

5 he fitness cost associated with this ancient chromosomal duplication.

6 d be the result of subsequent, smaller-scale chromosomal duplications.

7 mya5 and Fsd2 appear to have originated by a chromosomal duplication and are found within evolutionar

8 and AtMTM2 have originated from a segmental chromosomal duplication and encode catalytically active

9 less likely for these paralogs to show inter-chromosomal duplication and testis-dominant transcriptio

10 ve general implications for trans effects of chromosomal duplications and aneuploidies on epigenetic

11 to use the technique to isolate nonidentical chromosomal duplications and gene homologues.

12 The maize genome is replete with chromosomal duplications and repetitive DNA.

13 nal priming process is associated with inter-chromosomal duplications and the insertion of filler DNA

14 that could select for different patterns of chromosomal duplications and/or losses, and their nearly

15 , the lac operon was inserted within a small chromosomal duplication, and selection stimulated RecA-d

16 Here we show that chromosomal duplications are first acquired as a crude s

17 reducens genome was found to contain a 10-kb chromosomal duplication consisting of two tandem three-g

18 e also found that three telomerically placed chromosomal duplications, containing approximately 700 o

19 Our findings imply that LOH occurs before chromosomal duplication during lung carcinogenesis.

20 Chromosomal duplication faces many blocks to replication

21 loci detected by 357 probes suggest ancient chromosomal duplication followed by extensive rearrangem

22 ved in our laboratory evolution experiments; chromosomal duplications gained under stress were elimin

23 In contrast, amplifications caused by whole chromosomal duplication have little to no impact on fitn

24 the relative impacts of retrotransposons and chromosomal duplication in plant genome evolution, and t

25 Chromosomal duplication in the B. oleracea genome was st

26 termine whether allelic loss correlates with chromosomal duplication in the same tumor cell populatio

27 lled by NOTCH1 that is targeted by recurrent chromosomal duplications in human T cell acute lymphobla

28 Chromosomal duplication, indicated by the presence of mo

29 Our findings indicate that chromosomal duplication is a first evolutionary line of

30 The fidelity of chromosomal duplication is monitored by cell cycle check

31 Considering that chromosomal duplications lead to increased DSCAM express

32 -seq of brain DNA from mouse models with sub-chromosomal duplications mimicking DS reveals partial bu

33 identified an XY intersex patient carrying a chromosomal duplication of the WNT4 locus and proposed t

34 lar regulatory loci were isolated as well as chromosomal duplications of the flhDC region.

35 er eukaryotes, owing to their propensity for chromosomal duplication or even triplication in a few ca

36 easure frequencies of sperm carrying partial chromosomal duplications or deletions of 1cen or 1p36.3

37 to the propensity of angiosperms to undergo chromosomal duplication ('polyploidization') and subsequ

38 tive fiber-FISH mapping results support that chromosomal duplications, rather than regional expansion

39 scinating case study for the coordination of chromosomal duplication, repair, and segregation with ea

40 due to heterozygous inheritance of a partial chromosomal duplication resulting in over-expression of

41 Chromosomal duplication stability is a tradeoff between

42 nclude that LOH may occur in the presence of chromosomal duplication, suggesting that the duplicated

43 ty was assessed in Ts65Dn mice that harbor a chromosomal duplication syntenic to human chromosome 21q

44 mutation and, conversely, is suppressed by a chromosomal duplication that contains the wild type Smrt

45 We have also identified an ancient chromosomal duplication that was maintained across these

46 The maize genome contains extensive chromosomal duplications that probably were produced by

47 utative tumor suppressor sites subsequent to chromosomal duplication; these losses do not necessarily

48 A chromosomal duplication timing analysis revealed that co

49 integrate a phylogenetic approach (relating chromosomal duplications to the tree of life) with a gen

50 The chromosomal duplication was shown by interphase FISH ana

51 ar time and structural variants within early chromosomal duplications, we indeed identified pregain d