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成果统计

合作作者[TOP 5]

  • Li, Dangsheng

    合作成果数:11

  • Li, Qing

    合作成果数:10

  • Tang, Wei

    合作成果数:9

  • Yan, Meng

    合作成果数:9

  • Yin, Qi

    合作成果数:7

访问统计


  总访问量
 1293
  访问来源
    内部: 3
    外部: 1290
    国内: 1015
    国外: 278

  年访问量
 161
  访问来源
    内部: 0
    外部: 161
    国内: 143
    国外: 18

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

访问量

访问量

1. Targeted genetic screening in mice through haploid embryonic stem .. [1202]
2. Next-Generation Models of Human Cardiogenesis via Genome Editing [1164]
3. The RNA-binding protein ROD1/PTBP3 cotranscriptionally defines AID.. [1135]
4. Chromosome territory reorganization through artificial chromosome .. [1131]
5. Correction of a genetic disease by CRISPR-Cas9-mediated gene editi.. [1074]
6. An intermediate cell state allows rerouting of cell fate [925]
7. In vitro expansion of human sperm through nuclear transfer [902]
8. The Roles of Testicular C-kit Positive Cells in De novo Morphogene.. [896]
9. Correction of a Genetic Disease in Mouse via Use of CRISPR-Cas9 [646]
10. Base editing-mediated one-step inactivation of the Dnmt gene famil.. [635]
11. Rescue of male infertility through correcting a genetic mutation c.. [631]
12. A Translation-Activating Function of MIWI/piRNA during Mouse Sperm.. [615]
13. Distinct enhancer signatures in the mouse gastrula delineate progr.. [607]
14. Temporal regulation of prenatal embryonic development by paternal .. [588]
15. Nucleolar URB1 ensures 3′ ETS rRNA removal to prevent exosome sur.. [580]
16. The PIWI-specific insertion module helps load longer piRNAs for tr.. [566]
17. LLPS of FXR1 drives spermiogenesis by activating translation of st.. [551]
18. Ubiquitination-Deficient Mutations in Human Piwi Cause Male Infert.. [533]
19. CRISPR-Cas9-mediated base-editing screening in mice identifies DND.. [527]
20. CRISPR-Cas9-Mediated Genetic Screening in Mice with Haploid Embryo.. [516]
21. Dosage effect of multiple genes accounts for multisystem disorder .. [499]
22. CRISPR-Cas9-Mediated Gene Editing in Mouse Spermatogonial Stem Cel.. [469]
23. piRNA-independent function of PIWIL1 as a co-activator for anaphas.. [458]
24. Epigenetic integrity of paternal imprints enhances the development.. [449]
25. The pathogenesis of common Gjb2 mutations associated with human he.. [439]
26. Spermatogenic Cell-Specific Gene Mutation in Mice via CRISPR-Cas9 [422]
27. Derivation of Haploid Neurons from Mouse Androgenetic Haploid Embr.. [414]
28. 类精子干细胞介导的遗传改造 [397]
29. Screening for functional circular RNAs using the CRISPR-Cas13 syst.. [396]
30. Polar bodies are efficient donors for reconstruction of human embr.. [395]
31. Creation of artificial karyotypes in mice reveals robustness of ge.. [374]
32. LARP7-Mediated U6 snRNA Modification Ensures Splicing Fidelity and.. [371]
33. Msi2-mediated MiR7a-1 processing repression promotes myogenesis [343]
34. Adenine base editor–mediated splicing remodeling activates noncan.. [335]
35. A CRISPR/RfxCas13d-mediated strategy for efficient RNA knockdown i.. [294]
36. 基因组编辑技术——后基因组时代生命科学研究的助力器 [179]
37. 靶向TLC区域的sgRNA及应用 [176]
38. 哺乳动物染色体工程新技术与染色体人工演化 [151]
39. 细胞重编程与胚胎发育 [122]
40. Visualization of chromosomal reorganization induced by heterologou.. [81]
41. Generation of live mice from haploid ESCs with germline-DMR deleti.. [54]
42. Efficient generation of all ESC-derived mice carrying a homozygous.. [51]

下载量

1. Correction of a genetic disease by CRISPR-Cas9-mediated gene editi.. [368]
2. Targeted genetic screening in mice through haploid embryonic stem .. [356]
3. Next-Generation Models of Human Cardiogenesis via Genome Editing [352]
4. An intermediate cell state allows rerouting of cell fate [347]
5. The Roles of Testicular C-kit Positive Cells in De novo Morphogene.. [337]
6. In vitro expansion of human sperm through nuclear transfer [337]
7. The RNA-binding protein ROD1/PTBP3 cotranscriptionally defines AID.. [307]
8. Chromosome territory reorganization through artificial chromosome .. [284]
9. Rescue of male infertility through correcting a genetic mutation c.. [201]
10. Base editing-mediated one-step inactivation of the Dnmt gene famil.. [176]
11. Temporal regulation of prenatal embryonic development by paternal .. [14]
12. Distinct enhancer signatures in the mouse gastrula delineate progr.. [13]
13. 哺乳动物染色体工程新技术与染色体人工演化 [10]
14. Creation of artificial karyotypes in mice reveals robustness of ge.. [9]
15. Correction of a Genetic Disease in Mouse via Use of CRISPR-Cas9 [7]
16. A Translation-Activating Function of MIWI/piRNA during Mouse Sperm.. [6]
17. 类精子干细胞介导的遗传改造 [6]
18. CRISPR-Cas9-mediated base-editing screening in mice identifies DND.. [2]
19. Nucleolar URB1 ensures 3′ ETS rRNA removal to prevent exosome sur.. [2]
20. The PIWI-specific insertion module helps load longer piRNAs for tr.. [2]
21. Visualization of chromosomal reorganization induced by heterologou.. [2]
22. Ubiquitination-Deficient Mutations in Human Piwi Cause Male Infert.. [1]
23. Derivation of Haploid Neurons from Mouse Androgenetic Haploid Embr.. [1]
24. CRISPR-Cas9-Mediated Genetic Screening in Mice with Haploid Embryo.. [1]
25. CRISPR-Cas9-Mediated Gene Editing in Mouse Spermatogonial Stem Cel.. [1]
26. Dosage effect of multiple genes accounts for multisystem disorder .. [1]
27. LLPS of FXR1 drives spermiogenesis by activating translation of st.. [1]
28. The pathogenesis of common Gjb2 mutations associated with human he.. [1]
29. Adenine base editor–mediated splicing remodeling activates noncan.. [1]
30. A CRISPR/RfxCas13d-mediated strategy for efficient RNA knockdown i.. [1]
31. 靶向TLC区域的sgRNA及应用 [1]
32. Generation of live mice from haploid ESCs with germline-DMR deleti.. [1]