ライフサイエンスコーパス: RNA intermediate

1 ate their DNA by reverse transcription of an RNA intermediate.

2 otransposons; that is, they transpose via an RNA intermediate.

3 novo initiation and involves a complementary RNA intermediate.

4 re mobile retroelements that move through an RNA intermediate.

5 ify in a "copy-and-paste" fashion through an RNA intermediate.

6 GDP generated from GTP via a covalent enzyme-RNA intermediate.

7 gy of replication involves a double-stranded RNA intermediate.

8 eukaryotic genomes that mobilize through an RNA intermediate.

9 ranscriptase (RT) and replicate by way of an RNA intermediate.

10 s genome (viral RNA) through a complementary RNA intermediate.

11 involves the formation of a covalent enzyme-RNA intermediate.

12 are mobile genetic elements that move via an RNA intermediate.

13 tous human transposons that replicate via an RNA intermediate.

14 anticipated to stabilize the covalent enzyme-RNA intermediate.

15 are human transposons which replicate via an RNA intermediate.

16 ons replicate by reverse transcription of an RNA intermediate.

17 ranspose through reverse transcription of an RNA intermediate.

18 LINEs, are retrotransposons that move via an RNA intermediate.

19 s, that move via reverse transcription of an RNA intermediate.

20 ents and move by reverse transcription of an RNA intermediate.

21 ted by retrotransposition, which involves an RNA intermediate.

22 ral DNA genome proceeds through a pregenomic RNA intermediate.

23 at transpose via reverse transcription of an RNA intermediate.

24 ich replicate by reverse transcription of an RNA intermediate.

25 c retrotransposon that propagates through an RNA intermediate.

26 plex, through a positive-sense complementary RNA intermediate.

27 ranscription and reverse transcription of an RNA intermediate.

28 at amplify through a copy-and-paste mode via RNA intermediates.

29 of branched RNAs that mimic intronic lariat RNA intermediates.

30 L1 elements propagate through RNA intermediates.

31 ing dominated by retroelements that move via RNA intermediates.

32 capable of generating new insertions through RNA intermediates.

33 OX24, is also involved in processing of COX1 RNA intermediates.

34 hat transpose by reverse transcription of an RNA intermediate and are derived from retroviruses.

35 that hold the potential to replicate via an RNA intermediate and are evolutionarily related to retro

36 The majority of these elements utilize an RNA intermediate and are termed retroelements.

37 HBV replicates through an RNA intermediate and can integrate into the host genome.

38 epeats in the mammalian genome, moves via an RNA intermediate and encodes its own reverse transcripta

39 e that homing occurs through a TR-containing RNA intermediate and is RecA independent.

40 re gene transcription, but brain SGR uses an RNA intermediate and reverse transcriptase (RT) activity

41 amate (KGlu) routinely enhances the yield of RNA intermediates and products obtained from in vitro sp

42 Retrotransposons mobilize via RNA intermediates and usually carry with them the agent

43 pTRS1 binding to PKR was not mediated by an RNA intermediate, and mutations in the pTRS1 RNA binding

44 tes into the human somatic genome through an RNA intermediate, and that such integrations are detecte

45 However, poly(dA:dT)-dependent RNA intermediates are insufficient to activate NLRP1.

46 ependent on the formation of double-stranded RNA intermediates are prevalent in germ cells.

47 s virus infection, a virus whose replicative RNA intermediates are recognized specifically by RIG-I r

48 sable elements that are processed through an RNA intermediate, are categorized as short interspersed

49 is required for ribonucleolytic resection of RNA intermediates at annealed DSBs.

50 TR retrotransposons that mobilize through an RNA intermediate by target site primed reverse transcrip

51 isting of transcription of oligomeric viroid RNA intermediates, cleavage to unit-length strands, and

52 factors 9G8 and SRp30C, possibly through an RNA intermediate during a yeast two-hybrid screen.

53 ation, likely triggered by a double-stranded RNA intermediate during replication of the virus.

54 Coronaviruses generate double-stranded (ds) RNA intermediates during viral replication that can acti

55 ods, such as molecular tests targeting viral RNA intermediates (e.g., subgenomic RNA), will be discus

56 Retrotransposons require an RNA intermediate for transposition, and their frequency

57 e place via the synthesis of negative-strand RNA intermediates from a positive-strand genomic templat

58 eplication steps and protect double-stranded RNA intermediates from innate immune recognition.

59 genes by RNA polymerase II yields messenger RNA intermediates from which protein products are synthe

60 f the SDR elements, probably working through RNA intermediates, have been mobile in recent evolutiona

61 ange of taxa, genes can duplicate through an RNA intermediate in a process mediated by retrotransposo

62 ome that are thought to be duplicated via an RNA intermediate in a process termed retroposition.

63 nfirmed by the presence of viral replicative RNA intermediates in the throat samples.

64 Specifically, the formation of stable RapA-RNA intermediates in transcription and other, independen

65 de their cognate intron-minus alleles via an RNA intermediate, in a process known as retrohoming.

66 es, replicate by reverse transcription of an RNA intermediate into a complementary DNA (cDNA) that is

67 t of previous studies, this suggests that an RNA intermediate is important for HUSH activity.

68 unit of Gag, while others have found that an RNA intermediate is required for Gag-APOBEC3G interactio

69 The unwinding of double-stranded RNA intermediates is critical for the replication and pa

70 copy themselves to new genomic locations via RNA intermediates; LINE-1 is the only active and autonom

71 interfering RNAs, the 21-nt double-stranded RNA intermediates of this natural pathway, have became a

72 In plants, the short RNA intermediates of this pathway can also drive transcr

73 unique DNA virus that replicates through an RNA intermediate produced from a stable covalently close

74 on their mehcanism of transposition: via an RNA intermediate (retroelements) or via a DNA intermedia

75 events requiring reverse transcription of an RNA intermediate, RNA-primed minus- and plus-strand DNA

76 n invariant DNA template repeat (TR) into an RNA intermediate, selectively mutagenized at TR adenines

77 mediated by reverse transcription (RT) of an RNA intermediate termed pregenomic RNA (pgRNA) within co

78 r genome through reverse transcription of an RNA intermediate termed pregenomic RNA (pgRNA).

79 r most open reading frames (ORFs) occurs via RNA intermediates termed "subgenomic RNAs." sgRNAs are p

80 s genomic DNA by reverse transcription of an RNA intermediate, termed pregenomic RNA (pgRNA), within

81 -encoded reverse transcriptase to convert an RNA intermediate, termed pregenomic RNA, into the relaxe

82 L1 elements produce an RNA intermediate that is reverse transcribed to DNA and

83 hown that poly(dA:dT) is transcribed into an RNA intermediate that stimulates the RNA sensor RIG-I.

84 bunit Rrp6 allows visualization of noncoding RNA intermediates that are terminated but not yet proces

85 shown that transcribed negative-sense viral RNA intermediates that arise during viral genome replica

86 Our approach identifies a minimum of four RNA intermediates that differ in terms of the TAR confor

87 lular:viral RNA hybrids, which are essential RNA intermediates that license transcription of antisens

88 DNA genome and replicate this DNA through an RNA intermediate (the pregenomic RNA, pgRNA) by reverse

89 t 1,700 bases which is replicated through an RNA intermediate, the antigenome.

90 translation from the CaMV 35S polycistronic RNA intermediate, the precise role of these bodies in th

91 genomes through reverse transcription of an RNA intermediate, the pregenomic RNA (pgRNA), in the vir

92 a critical step of trimming piwi-interacting RNA intermediates to achieve optimally sized piwi-intera

93 the potential for negative-sense SARS-CoV-2 RNA intermediates to contain protein-coding loci.

94 transposition competent and mobilize through RNA intermediates to different locations within the geno

95 n active mammalian retrotransposon that uses RNA intermediates to populate new sites throughout the g

96 These elements move autonomously through an RNA intermediate using target-primed reverse transcripti

97 ich trigger formation of double-stranded (ds)RNA intermediates via DNA-RNA hybrid intermediates to pr

98 LINE-1 propagates in the genome using RNA intermediates via retrotransposition.

99 examine the precise structure of this primer RNA intermediate, we have used two methods to reconstitu

100 s accumulation of untrimmed piwi-interacting RNA intermediates with 3' end extension, leading to seve