ライフサイエンスコーパス: inverted repeat sequence

1 e-strand break is introduced next to a short inverted repeat sequence.

2 including a long spacer region containing an inverted repeat sequence.

3 at are repaired using multiple distinct long inverted repeat sequences.

4 involving homologous recombination of short inverted repeat sequences.

5 ten occur at short direct repeats that flank inverted repeat sequences.

6 bp in size and is bordered by 20-bp terminal inverted repeat sequences.

7 ity of target sites had no mismatches in the inverted repeat sequences.

8 t levels of homologous recombination between inverted repeat sequences.

9 help explain TMEJ repair events that include inverted repeat sequences.

10 ons that self-assemble from single identical inverted-repeat sequences.

11 abilizing this recombination intermediate in inverted-repeat sequences.

12 Mutation of this element, inverted repeat sequence 1 (IR1), abrogates binding of c

13 ylated PmrA bind to a 16-base pair imperfect inverted repeat sequence (5'-TTAAKTTCTTAAKGTT-3'), which

14 tified DNA-protein contact points at a novel inverted repeat sequence (AACCACTGGTT) and an Ets-like r

15 of replication between the arms of a GC-rich inverted repeat sequence adjacent to the binding site fo

16 n integrate both short oligonucleotides with inverted repeat sequences and a 2.8 kb excised mini-casp

17 It is bounded by 30-bp imperfect inverted repeat sequences and flanked by 8-bp direct rep

18 -helix DNA-binding motif, recognizes a 19-bp inverted repeat sequence, and has a typical DNase I foot

19 owed in Saccharomyces cerevisiae that nearby inverted repeat sequences ( approximately 20-200 bp of h

20 taining many copies of the viral genome with inverted repeat sequences at the junctions between monom

21 coelicolor A3(2) were found to have 1.06 Mb inverted repeat sequences at their termini (i.e. long-te

22 " class of mutations that arise in imperfect inverted repeat sequences by DNA-strand misalignments du

23 of interest: an RNA/DNA hybrid domain and an inverted repeat sequence capable of forming a stem-loop

24 A 26-bp inverted repeat sequence centered 15 bp downstream from

25 ent here the single-crystal structure of the inverted repeat sequence d(CCGGTACCGG) as a Holliday jun

26 Ser beta-sheet that binds specifically to an inverted repeat sequence distinct from those recognized

27 Disruption of an inverted-repeat sequence eliminated DNA secretion, sugge

28 a cruciform DNA structure formed by a 60 bp inverted repeat sequence embedded in a negatively superc

29 They consist of an inverted repeat sequence flanking a transposase gene wit

30 ally to oriV DNA at several sites containing inverted repeat sequences (i.e., IR-1) and nonspecifical

31 The first inverted repeat sequence in prgQ, IRS1, was required for

32 sin occurred via binding directly to a short inverted repeat sequence in the intergenic region overla

33 v3066 regulator binds to a 14-bp palindromic inverted repeat sequence in the nanomolar range.

34 otein in various genetic backgrounds, and an inverted repeat sequence in the promoter of hetP was nec

35 inal domain of AcrIIA13-AcrIIA15 binds to an inverted repeat sequence in the promoter of these Acr ge

36 R binds specifically and tightly to an 11-bp inverted repeat sequence in the promoter regions of the

37 lis OhrR binds cooperatively to two adjacent inverted repeat sequences in the ohrA control region and

38 pression of the operon by binding to several inverted repeat sequences in the promoter region, dnaKp.

39 spR confers repression by binding to several inverted repeat sequences in the promoter region, dnaKp.

40 Recently, we demonstrated that inverted repeat sequences inserted into first-generation

41 rs and head-to-tail (h-t) concatemers within inverted repeat sequences (IRs) near probable origins of

42 One, O(C), which includes a 20-bp imperfect inverted-repeat sequence, is located between the two pro

43 proteins bind with high affinity to a 19-bp inverted repeat sequence known as the Fur box.

44 An inverted-repeat sequence located upstream of trpE bound

45 The presence of a short inverted repeat sequence near a DNA double-strand break

46 he Tcr3 element contained imperfect terminal inverted repeat sequences of 56 bp and created a 2 bp ta

47 Both binding sites contain imperfect inverted repeat sequences of 6-10 bp with a 5'-TCGAG-3'

48 data suggest that ToxR is not recognizing an inverted repeat sequence per se in the activation of tox

49 Interestingly, a 6-bp inverted repeat sequence present in the katB regulatory

50 nce is remarkably similar to a related 7-1-7 inverted repeat sequence recognized by PerR, a Fur paral

51 One such perfect inverted repeat sequence resides between positions 2605

52 ly, deletion of a 26-bp region containing an inverted repeat sequence resulted in the loss of express

53 The database currently hosts 34 330 450 inverted repeat sequences, serving as a centralized, use

54 Inverted repeat sequences, such as Alu elements, if posi

55 f the short transcript mapped adjacent to an inverted repeat sequence, suggesting that the sequence c

56 ing to target DNA minimally requires an 8-bp inverted-repeat sequence, TAAC GITA.

57 mRNA from the usd-spoIIID operon contains an inverted repeat sequence that is predicted to form a ste

58 for ohrA transcription identifies a perfect inverted repeat sequence that is required for OhrR-media

59 An inverted repeat sequence that overlaps the -10 element o

60 tprinting demonstrated binding of CouR to an inverted repeat sequence that overlaps the -10 region of

61 0-generated duplications are all symmetrical inverted repeat sequences that are apparently derived fr

62 d homologous recombination between the large inverted repeat sequences that exist in the genome, rath

63 Two inverted repeat sequences that represent potential bindi

64 Since (6)CCC(8) is in the 5' half of an inverted repeat sequence, these results are consistent w

65 ments are flanked by characteristic terminal inverted repeat sequences (TIRs).

66 We have investigated the ability of inverted repeat sequences to stimulate deletion of flank

67 ection" mechanism that can restore mutilated inverted-repeat sequences to a palindrome at the Ori of

68 posase binds specifically to ISY100 terminal inverted repeat sequences via an N-terminal DNA-binding

69 A similar inverted repeat sequence was identified in the tehA prom

70 sses a single operon by binding to a perfect inverted repeat sequence, whereas HpNikR binds to promot

71 Upstream of each putative promoter is an inverted repeat sequence which resembles a similar eleme

72 he catA86 coding sequence contains a pair of inverted repeat sequences which cause sequestration of t

73 Chloroplast mRNAs typically contain an inverted repeat sequence within the 3' untranslated regi

74 d oligonucleotide conjugates to hybridize to inverted repeat sequences within supercoiled double-stra