ライフサイエンスコーパス: rolling circle replication

1 are then further enriched by randomly primed rolling circle replication.

2 c RNA motif, the HDV ribozyme, during double-rolling circle replication.

3 ial viral replication protein that initiates rolling circle replication.

4 and lagging strands are co-ordinated in SV40 rolling circle replication.

5 catalyzes DNA cleavage during initiation of rolling circle replication.

6 ri sequence-containing clones, indicative of rolling circle replication.

7 HUH endonucleases (ENs) coordinate rolling circle replication.

8 iester bond and linearize concatemers during rolling circle replication.

9 d protein (Rep) that catalyzes initiation of rolling-circle replication.

10 on and DNA cleavage during the initiation of rolling-circle replication.

11 e of a viroid RNA three-dimensional motif in rolling-circle replication.

12 of copies generated on a master molecule by rolling-circle replication.

13 NA transposons, Helitron, which transpose by rolling-circle replication.

14 otein, AL1, that catalyzes the initiation of rolling-circle replication.

15 ements for DNA cleavage during initiation of rolling-circle replication.

16 irection, with the 3' end likely extended by rolling-circle replication.

17 -stranded DNA, which is required to initiate rolling-circle replication.

18 iruses are viroid-like elements that undergo rolling circle replication and encode their own viral Rd

19 roducing tandem CpG and shRNA via concurrent rolling circle replication and rolling circle transcript

20 The substitution pattern suggested rolling circle replication as an array expansion mechani

21 emonstrated that second-strand synthesis and rolling-circle replication did not appear to be the majo

22 itous presence and fundamental importance of rolling circle replication elements, structural informat

23 olved non-recombining regions, in particular rolling-circle replication elements (Helitrons).

24 curring hammerhead ribozymes are produced by rolling circle replication followed by self-cleavage.

25 However, the exact mechanism of rolling circle replication for HDV RNA and viroids is no

26 de evidence for chromosome recombination and rolling-circle replication for the R. phalloides mitogen

27 Rolling circle replication from M13 DNA circles was prev

28 CGG, and GAA repeats were the templates for rolling circle replication from the f1 phage origin.

29 Rolling circle replication generates multimeric satRPV R

30 Since rolling circle replication has been established in vitro

31 Rolling circle replication has previously been reconstit

32 the nucleases involved in the initiation of rolling circle replication in plasmids and viruses, and

33 ce (MVM) replicates via a linearized form of rolling-circle replication in which the viral nickase, N

34 sses activities common to the superfamily of rolling-circle replication initiator proteins in general

35 lysis of in vitro replicated products showed rolling circle replication intermediates for single ori

36 lomeric strand and tailed circles resembling rolling circle replication intermediates.

37 Rolling circle replication is a mechanism for copying si

38 Rolling-circle replication is initiated by a replicon-en

39 The rolling-circle replication is the most common mechanism

40 ular RNA that is presumed to replicate via a rolling circle replication mechanism mediated by cellula

41 ke circular RNA that replicates via a double rolling circle replication mechanism.

42 cted human cells (293 cells) can promote the rolling circle replication of circular duplex DNA molecu

43 ocess multimeric intermediates in the double-rolling circle replication of its genome.

44 uired the helicase PcrA that is required for rolling circle replication of many plasmids.

45 packages a linear concatemer created during rolling circle replication of pBR322, similar in fashion

46 -encoded helicase, PcrA, is required for the rolling circle replication of plasmid pT181 in Staphyloc

47 recruited into the replisome by RepD during rolling circle replication of plasmids of the pT181 fami

48 frequent t-loop HR events that could promote rolling circle replication of telomeres in the absence o

49 We propose a model in which continued rolling circle replication of the large circular concata

50 lacement of downstream strand, analogous to 'rolling circle' replication of bacteriophage in vivo.

51 -stranded DNA (ssDNA), analogous to in vivo 'rolling circle' replication of bacteriophage.

52 te efficient reloading of DnaB helicase onto rolling circle replication products, thereby permitting

53 in a manner distinct from that of any other rolling circle replication proteins.

54 evel, including motifs associated with other rolling circle replication proteins.

55 des: complementary strand replication (CSR), rolling circle replication (RCR) and recombination-depen

56 erized transposase; rather, it is related to rolling circle replication (RCR) proteins.

57 ism, PLE prevents ICP1 from transitioning to rolling circle replication (RCR), a prerequisite for eff

58 They are presumed to amplify by rolling-circle replication (RCR) because some elements e

59 ontains amino acid sequence motifs common to rolling-circle replication (RCR) initiator proteins.

60 from long DNA building blocks generated via rolling-circle replication (RCR) of a designed template.

61 rating the gel system with this well-studied rolling circle replication reaction, we then analyzed th

62 lambda genomic DNA is replicated via rolling circle replication, resulting in multiple genome

63 wo conserved sequence motifs that define the rolling circle replication superfamily.

64 splacement mechanism, a linear adaptation of rolling circle replication that relies on the repeated f

65 In rolling circle replication, the normal mechanism for ter

66 ribozyme in vivo to process the products of rolling-circle replication to unit-length molecules.