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成果统计

合作作者[TOP 5]

  • Pederson, Thoru

    合作成果数:14

  • 冯颖

    合作成果数:7

  • 孙亚东

    合作成果数:6

  • Naseri, Ardalan

    合作成果数:6

  • Zhang, Shaojie

    合作成果数:6

访问统计


  总访问量
 2396
  访问来源
    内部: 7
    外部: 2389
    国内: 2145
    国外: 251

  年访问量
 209
  访问来源
    内部: 0
    外部: 209
    国内: 196
    国外: 13

  月访问量
 100
  访问来源
    内部: 0
    外部: 100
    国内: 94
    国外: 6

访问量

访问量

1. Model-based understanding of single-cell CRISPR screening [2196]
2. DeepCRISPR: optimized CRISPR guide RNA design by deep learning [1374]
3. Efficient base editing in G/C-rich regions to model androgen insen.. [1345]
4. PPARγ phase separates with RXRα at PPREs to regulate target gene.. [1012]
5. Cell cycle- and genomic distance-dependent dynamics of a discrete .. [1009]
6. Simultaneous epigenetic perturbation and genome imaging reveal dis.. [903]
7. Eliminating base-editor-induced genome-wide and transcriptome-wide.. [893]
8. Stochastically multimerized ParB orchestrates DNA assembly as unve.. [871]
9. CRISPR-Sirius: RNA scaffolds for signal amplification in genome im.. [613]
10. Chemical-induced phase transition and global conformational reorga.. [563]
11. Enhancing Prime Editing Efficiency and Flexibility with Tethered a.. [544]
12. Phase-separated ParB enforces diverse DNA compaction modes and sta.. [453]
13. Engineering Miniature IscB Nickase for Robust Base Editing with Br.. [450]
14. STRIDE-a fluorescence method for direct, specific in situ detectio.. [412]
15. Tracking pairwise genomic loci by the ParB–ParS and Noc-NBS syste.. [403]
16. The local density of H3K9me3 dictates the stability of HP1α conde.. [389]
17. 基于微型CRISPR Cas蛋白Cas12f1的碱基编辑器系统及其应用 [353]
18. Engineering Miniature CRISPR-Cas Un1Cas12f1 for Efficient Base Edi.. [338]
19. CTCF DNA-binding domain undergoes dynamic and selective protein-pr.. [328]
20. 新型高效的先导编辑器及其应用 [324]
21. Robust miniature Cas-based transcriptional modulation by engineeri.. [309]
22. 基于Cas12f1的基因表达调控系统及其应用 [285]
23. 基于Cas12f1的基因表达调控系统及其应用 [283]
24. IscBn-ωRNA编辑系统及其应用 [276]
25. IscBn-ωRNA编辑系统及其应用 [275]
26. 一种可调节的先导编辑器及其应用 [271]
27. Engineering CjCas9 for Efficient Base Editing and Prime Editing [243]
28. 实现高度可控向三维推进——谈基于CRISPR/Cas基因调控系统突破进展 [217]
29. Nucleolar structure connects with global nuclear organization [182]
30. ParSite is a multicolor DNA labeling system that allows for simult.. [68]
31. 一种基于CjCas9的基因编辑系统及其应用 [44]
32. Recruitment and rejoining of remote double-strand DNA breaks for e.. [8]

下载量

1. Model-based understanding of single-cell CRISPR screening [520]
2. Cell cycle- and genomic distance-dependent dynamics of a discrete .. [326]
3. Efficient base editing in G/C-rich regions to model androgen insen.. [296]
4. PPARγ phase separates with RXRα at PPREs to regulate target gene.. [293]
5. Simultaneous epigenetic perturbation and genome imaging reveal dis.. [270]
6. Stochastically multimerized ParB orchestrates DNA assembly as unve.. [255]
7. DeepCRISPR: optimized CRISPR guide RNA design by deep learning [227]
8. Phase-separated ParB enforces diverse DNA compaction modes and sta.. [83]
9. Tracking pairwise genomic loci by the ParB–ParS and Noc-NBS syste.. [19]
10. Engineering CjCas9 for Efficient Base Editing and Prime Editing [18]
11. Engineering Miniature IscB Nickase for Robust Base Editing with Br.. [16]
12. Robust miniature Cas-based transcriptional modulation by engineeri.. [12]
13. Chemical-induced phase transition and global conformational reorga.. [11]
14. Eliminating base-editor-induced genome-wide and transcriptome-wide.. [9]
15. ParSite is a multicolor DNA labeling system that allows for simult.. [9]
16. CRISPR-Sirius: RNA scaffolds for signal amplification in genome im.. [7]
17. Engineering Miniature CRISPR-Cas Un1Cas12f1 for Efficient Base Edi.. [7]
18. 基于微型CRISPR Cas蛋白Cas12f1的碱基编辑器系统及其应用 [6]
19. IscBn-ωRNA编辑系统及其应用 [5]
20. Enhancing Prime Editing Efficiency and Flexibility with Tethered a.. [4]
21. 新型高效的先导编辑器及其应用 [3]
22. 一种可调节的先导编辑器及其应用 [3]
23. The local density of H3K9me3 dictates the stability of HP1α conde.. [3]
24. IscBn-ωRNA编辑系统及其应用 [3]
25. 基于Cas12f1的基因表达调控系统及其应用 [3]
26. Nucleolar structure connects with global nuclear organization [2]
27. STRIDE-a fluorescence method for direct, specific in situ detectio.. [1]
28. 基于Cas12f1的基因表达调控系统及其应用 [1]
29. Recruitment and rejoining of remote double-strand DNA breaks for e.. [1]