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

1 ay multi-arrayed fiberoptics conjugated with rolling circle amplification.

2 hich are assembled in yeast and amplified by rolling circle amplification.

3 ke DNA nanoparticles that are synthesized by rolling circle amplification.

4 s of a DNA assay based on padlock probes and rolling circle amplification.

5 n of target of any sequence by incorporating rolling circle amplification.

6 on to generate genomic sequences amenable to rolling circle amplification.

7 fidelity DNA ligation step with the power of rolling circle amplification.

8 via padlock probe recognition and isothermal rolling circle amplification and benchmark against a com

9 Rolling circle amplification and gradient centrifugation

10 ation of two new amplification technologies (rolling circle amplification and Invader), a significant

11 be mediated by alternative processes such as rolling circle amplification and/or homologous recombina

12 ys (by strand displacement amplification and rolling circle amplification), and description of two ne

13 Additionally, expanded repeats generated by rolling circle amplification can be produced in vectors

14 The combination of suspension array with rolling circle amplification can lead to a sensitive and

15 Rolling circle amplification has been useful for detecti

16 be is served as a template for hyperbranched rolling circle amplification (HRCA) by utilizing Bst DNA

17 ion nicking reactions mediated hyperbranched rolling circle amplification (HRCA).

18 nzymes and exonucleases, we demonstrate that rolling circle amplification in situ can detect gene cop

19 subjected to massive signal amplification by rolling circle amplification, leading to a sensor system

20 ure in these samples, we used a novel linear rolling-circle amplification method to amplify episomal

21 we developed a new method, overlap extension rolling circle amplification (OERCA), for the highly par

22 involves a single PCR-type reaction for the rolling circle amplification of a circular DNA template

23 As rolling circle amplification of padlock probes can be us

24 using exhaustive in silico enzyme screening, rolling circle amplification of plasmid DNA, capillary e

25 localized Anaplasma gene sequences by using rolling-circle amplification of circularizable, linear,

26 Here using rolling-circle amplification of gene-specific circulariz

27 mples and five cervical cancer tissues using rolling-circle amplification of total cell DNA and deep

28 d in replicate experiment sets by two-color, rolling circle amplification on microarrays containing 9

29 on of peptide nucleic acid (PNA) technology, rolling circle amplification (RCA) and DNAzymes.

30 optical diffraction biosensor that utilizes rolling circle amplification (RCA) and magnetic microbea

31 optimized for both high- and low-temperature rolling circle amplification (RCA) and strand displaceme

32 To facilitate the development of real-time rolling circle amplification (RCA) for protein targets,

33 table ligation for allele discrimination and rolling circle amplification (RCA) for signal enhancemen

34 Rolling circle amplification (RCA) generates a localized

35 Rolling circle amplification (RCA) is a molecular amplif

36 Rolling circle amplification (RCA) is a surface-anchored

37 Rolling circle amplification (RCA) is an isothermal enzy

38 nsitive detection of DNA using the dendritic rolling circle amplification (RCA) is introduced.

39 Isothermal rolling circle amplification (RCA) is used to detect nuc

40 rface-invasive cleavage reaction followed by rolling circle amplification (RCA) labeling of the cleav

41 age genomes and recently has been applied as rolling circle amplification (RCA) of specific target se

42 rface-invasive cleavage reaction followed by rolling circle amplification (RCA) of the cleavage produ

43 Ebola cDNA was amplified by rolling circle amplification (RCA) on magnetic particles

44 by either polymerase chain reaction (PCR) or rolling circle amplification (RCA) processes, taking adv

45 In this paper, rolling circle amplification (RCA) products are detected

46 of an externally supplied ssDNA circle in a rolling circle amplification (RCA) reaction.

47 We describe an adaptation of the rolling circle amplification (RCA) reporter system for t

48 mediated isothermal amplification (LAMP) and Rolling Circle Amplification (RCA) techniques for c-MYC

49 ll sorting (FACS) to isolate the organelles, rolling circle amplification (RCA) to amplify the genome

50 rming large defined silver nanostructures by rolling circle amplification (RCA) using boranephosphona

51 In this system, Rolling Circle Amplification (RCA) was used as a signal

52 tforward assay that combined the stand-alone rolling circle amplification (RCA) with capillary electr

53 Rolling circle amplification (RCA), an isothermal amplif

54 of DNA nanotubes with a backbone produced by rolling circle amplification (RCA), which results in inc

55 uble-stranded barcoding error correction and rolling circle amplification (RCA)-based target enrichme

56 ed upon a padlock probe ligation followed by rolling circle amplification (RCA).

57 P binding sites, with proximity ligation and rolling circle amplification (RCA).

58 genomes of PyVs are readily detectable using rolling circle amplification (RCA).

59 dimerized repeat tract formed substrates for rolling circle amplification (RCA).

60 ibodies enhanced signals can be obtained via rolling circle amplification (RCA).

61 lecule, can be replicated successfully using Rolling Circle Amplification (RCA).

62 lymerase chain reaction (PCR) and isothermal rolling circle amplification (RCA).

63 ntrol and amplification technologies such as rolling circle amplification (RCA).

64 Rolling-circle amplification (RCA) and ramification ampl

65 Rolling-circle amplification (RCA) driven by DNA polymer

66 We describe conditions for rolling-circle amplification (RCA) of individual DNA mol

67 The method includes rolling-circle amplification (RCA) of repeats in vitro a

68 We have performed rolling-circle amplification (RCA) reactions on three DN

69 We describe coupling of isothermal rolling-circle amplification (RCA) to universal antibodi

70 ong-chain single-stranded DNA synthesized by rolling-circle amplification (RCA).

71 in comparison to in vitro replication using rolling-circle amplification (RCA).

72 ed off-chip by padlock probe recognition and rolling circle amplification show a different dynamics a

73 plification method, based on three rounds of rolling-circle amplification, that produces nanomole amo

74 We describe a simple method of using rolling circle amplification to amplify vector DNA such

75 locked-nucleic acid probes is combined with rolling circle amplification to detect the presence and

76 We used rolling circle amplification to increase the number of c

77 We used a novel amplification assay (linear rolling-circle amplification) to show that the majority

78 A new colorimetric method for monitoring of rolling circle amplification was developed.

79 Sequence-specific linear rolling-circle amplification was utilized to isolate clo

80 s synthesized from a microfluidic surface by rolling circle amplification where critical parameters,

81 A-RCA (Restriction and Circularization-Aided Rolling Circle Amplification), which retains the allelic

82 It employs rolling circle amplification, which enriches the full-le

83 The sequence is amplified through rolling circle amplification with 29 DNA polymerase and