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成果统计

合作作者[TOP 5]

  • 杨力

    合作成果数:33

  • Liu, Chu-Xiao

    合作成果数:17

  • Yang, Li

    合作成果数:16

  • Zhang, Yang

    合作成果数:12

  • Yao, Run-Wen

    合作成果数:10

访问统计


  总访问量
 2597
  访问来源
    内部: 67
    外部: 2530
    国内: 2229
    国外: 368

  年访问量
 270
  访问来源
    内部: 0
    外部: 270
    国内: 244
    国外: 26

  月访问量
 9
  访问来源
    内部: 0
    外部: 9
    国内: 9
    国外: 0

访问量

访问量

1. Gene regulation by long non-coding RNAs and its biological functio.. [3914]
2. Regulation of circRNA biogenesis [1837]
3. Diverse alternative back-splicing and alternative splicing landsca.. [1799]
4. Nascent Pre-rRNA Sorting via Phase Separation Drives the Assembly .. [1407]
5. Research Progress of Long Noncoding RNA in China [1137]
6. The Biogenesis, Functions, and Challenges of Circular RNAs [1129]
7. Increased complexity of circRNA expression during species evolutio.. [1109]
8. Dynamic Imaging of RNA in Living Cells by CRISPR-Cas13 Systems [1081]
9. Cellular functions of long noncoding RNAs [1077]
10. CircRNA-derived pseudogenes [1034]
11. CRISPR-dCas13-tracing reveals transcriptional memory and limited m.. [1033]
12. Shedding light on paraspeckle structure by super-resolution micros.. [1029]
13. Protein arginine methyltransferase CARM1 attenuates the paraspeckl.. [938]
14. Linking Long Noncoding RNA Localization and Function [923]
15. ADAR1 is required for differentiation and neural induction by regu.. [902]
16. Genome-wide screening of NEAT1 regulators reveals cross-regulation.. [850]
17. The expanding regulatory mechanisms and cellular functions of circ.. [780]
18. Structure and Degradation of Circular RNAs Regulate PKR Activation.. [739]
19. 小核仁RNA相关的长链非编码RNA家族的发现与功能研究 [604]
20. LETN and NPM1 tango in human nucleoli [596]
21. Nucleolar URB1 ensures 3′ ETS rRNA removal to prevent exosome sur.. [580]
22. SLERT Regulates DDX21 Rings Associated with Pol I Transcription [578]
23. The Diversity of Long Noncoding RNAs and Their Generation [564]
24. Characterization of Circular RNAs [560]
25. Understanding lncRNA–protein assemblies with imaging and single-m.. [552]
26. ALUternative Regulation for Gene Expression [547]
27. The Output of Protein-Coding Genes Shifts to Circular RNAs When th.. [542]
28. Processing and roles of snoRNA-ended long noncoding RNAs [532]
29. Organization and function of paraspeckles [523]
30. Microexons Go Big [522]
31. N-6-Methyladenosines Modulate A-to-I RNA Editing [515]
32. Unusual Processing Generates SPA LncRNAs that Sequester Multiple R.. [494]
33. SCAPTURE: a deep learning-embedded pipeline that captures polyaden.. [487]
34. Enhancing the RNA engineering toolkit [471]
35. The Biogenesis of Nascent Circular RNAs [460]
36. Screening circular RNAs with functional potential using the RfxCas.. [460]
37. Biogenesis and Regulatory Roles of Circular RNAs [452]
38. Distinct Processing of lncRNAs Contributes to Non-conserved Functi.. [450]
39. Ling-Ling Chen: Linking Long Noncoding RNA Processing and Function.. [438]
40. The long noncoding RNA regulation at the MYC locus [435]
41. Coordinated circRNA Biogenesis and Function with NF90/NF110 in Vir.. [427]
42. Circular RNAs: Characterization, cellular roles, and applications [415]
43. RNA circles with minimized immunogenicity as potent PKR inhibitors [398]
44. 噻唑-噁唑串联杂环类RNA剪接抑制剂的发现及构效关系研究 [397]
45. Screening for functional circular RNAs using the CRISPR-Cas13 syst.. [396]
46. Discovery and Structure-Activity Relationship Studies of Thiazole-.. [396]
47. CIRCexplorer3: A CLEAR Pipeline for Direct Comparison of Circular .. [380]
48. Therapeutic application of circular RNA aptamers in a mouse model .. [365]
49. lncRNA SLERT controls phase separation of FC/DFCs to facilitate Po.. [359]
50. Linking circular intronic RNA degradation and function in transcri.. [348]
51. Mapping circular RNA structures in living cells by SHAPE-MaP [346]
52. RNA structure probing uncovers RNA structure-dependent biological .. [337]
53. CIRCexplorer pipelines for circRNA annotation and quantification f.. [305]
54. Long noncoding RNA and protein abundance in lncRNPs [301]
55. Altered nucleocytoplasmic export of adenosine-rich circRNAs by PAB.. [300]
56. A CRISPR/RfxCas13d-mediated strategy for efficient RNA knockdown i.. [294]
57. Unveiling the mystery of nuclear RNA homeostasis [283]
58. Dynamic conformation: Marching toward circular RNA function and ap.. [280]
59. Noncoding RNAs: biology and applications-a Keystone Symposia repor.. [271]
60. Expanded regulation of circular RNA translation [269]
61. 长非编码RNAs物种特异性的加工定位决定其在干细胞中的差异功能 [265]
62. An optimized fixation method containing glyoxal and paraformaldehy.. [260]
63. Pre-rRNA spatial distribution and functional organization of the n.. [257]
64. Mechanisms of Long Noncoding RNA Nuclear Retention [243]
65. Small and long non-coding RNAs: Past, present, and future [238]
66. Expanded toolkits for RNA circularization [231]
67. Therapeutic circRNA aptamer alleviates PKR-associated osteoarthrit.. [169]
68. Beyond housekeeping: a new role of snoRNA in nascent protein secre.. [58]
69. A dual-effect of FUBP1 on the SPA lncRNA maturation [32]
70. Circular RNA aptamers targeting neuroinflammation ameliorate Alzhe.. [31]
71. Degradation of circular RNA by the ribonuclease DIS3 [11]

下载量

1. Gene regulation by long non-coding RNAs and its biological functio.. [865]
2. Regulation of circRNA biogenesis [509]
3. Diverse alternative back-splicing and alternative splicing landsca.. [469]
4. Nascent Pre-rRNA Sorting via Phase Separation Drives the Assembly .. [461]
5. Research Progress of Long Noncoding RNA in China [380]
6. Shedding light on paraspeckle structure by super-resolution micros.. [374]
7. Dynamic Imaging of RNA in Living Cells by CRISPR-Cas13 Systems [361]
8. Increased complexity of circRNA expression during species evolutio.. [341]
9. Protein arginine methyltransferase CARM1 attenuates the paraspeckl.. [313]
10. ADAR1 is required for differentiation and neural induction by regu.. [294]
11. CircRNA-derived pseudogenes [290]
12. CRISPR-dCas13-tracing reveals transcriptional memory and limited m.. [275]
13. LETN and NPM1 tango in human nucleoli [263]
14. SCAPTURE: a deep learning-embedded pipeline that captures polyaden.. [105]
15. Pre-rRNA spatial distribution and functional organization of the n.. [63]
16. Cellular functions of long noncoding RNAs [21]
17. Structure and Degradation of Circular RNAs Regulate PKR Activation.. [8]
18. 小核仁RNA相关的长链非编码RNA家族的发现与功能研究 [3]
19. Genome-wide screening of NEAT1 regulators reveals cross-regulation.. [3]
20. Characterization of Circular RNAs [2]
21. Nucleolar URB1 ensures 3′ ETS rRNA removal to prevent exosome sur.. [2]
22. ALUternative Regulation for Gene Expression [1]
23. SLERT Regulates DDX21 Rings Associated with Pol I Transcription [1]
24. The Biogenesis of Nascent Circular RNAs [1]
25. The Diversity of Long Noncoding RNAs and Their Generation [1]
26. Coordinated circRNA Biogenesis and Function with NF90/NF110 in Vir.. [1]
27. The Biogenesis, Functions, and Challenges of Circular RNAs [1]
28. A CRISPR/RfxCas13d-mediated strategy for efficient RNA knockdown i.. [1]
29. Unveiling the mystery of nuclear RNA homeostasis [1]
30. Altered nucleocytoplasmic export of adenosine-rich circRNAs by PAB.. [1]
31. Dynamic conformation: Marching toward circular RNA function and ap.. [1]
32. Expanded toolkits for RNA circularization [1]
33. Small and long non-coding RNAs: Past, present, and future [1]
34. Beyond housekeeping: a new role of snoRNA in nascent protein secre.. [1]
35. Degradation of circular RNA by the ribonuclease DIS3 [1]