This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Anokye-Danso, F., Trivedi, C.M., Juhr, D., Gupta, M., Cui, Z., Tian, Y., Zhang, Y., Yang, W., Gruber, P.J., & Epstein, J.A. (2011). Highly efficient miRNA-mediated reprogramming of mouse and human somatic cells to pluripotency. Cell Stem Cell, 8(4), 376–388.Anokye-DansoF.TrivediC.M.JuhrD.GuptaM.CuiZ.TianY.ZhangY.YangW.GruberP.J.&EpsteinJ.A.2011Highly efficient miRNA-mediated reprogramming of mouse and human somatic cells to pluripotency8437638810.1016/j.stem.2011.03.001309065021474102Search in Google Scholar
Banks, M.G. (2006). An extension of the hirsch index: Indexing scientific topics and compounds. Scientometrics, 69(1), 161–168.BanksM.G.2006An extension of the hirsch index: Indexing scientific topics and compounds69116116810.1007/s11192-006-0146-5Search in Google Scholar
Bastian, M., Heymann, S., & Jacomy, M. (2009). Gephi: An open source software for exploring and manipulating networks. In Proceedings of the Third International Conference on Weblogs and Social Media (361–362). San Jose, California, USA. ICWSM.BastianM.HeymannS.&JacomyM.2009Gephi: An open source software for exploring and manipulating networksSan Jose, California, USAICWSM10.1609/icwsm.v3i1.13937Search in Google Scholar
Benner, S.A., & Sismour, A.M. (2005). Synthetic biology. Nat Rev Genet, 6, 533–543.BennerS.A.&SismourA.M.2005Synthetic biology653354310.1038/nrg1637709740515995697Search in Google Scholar
Borgatti, S.P., Everett, M.G., & Freeman, L.C. (2002). Ucinet for windows: Software for social network analysis, Harvard, MA: Analytic Technologies.BorgattiS.P.EverettM.G.&FreemanL.C.2002Harvard, MAAnalytic TechnologiesSearch in Google Scholar
Bornmann, L., & Daniel, H.D. (2005). Does the h-index for ranking of scientists really work? Scientometrics, 65(3), 391–392.BornmannL.&DanielH.D.2005Does the h-index for ranking of scientists really work?65339139210.1007/s11192-005-0281-4Search in Google Scholar
Bornmann, L., & Daniel, H. (2007). What do we know about the h index? Journal of the American Society for Information Science and Technology, 58(9), 1381–1385.BornmannL.&DanielH.2007What do we know about the h index?5891381138510.1002/asi.20609Search in Google Scholar
Braun, T., Glänzel, W., & Schubert, A. (2006). A hirsch-type index for journals. Scientometrics, 69(1), 169–173.BraunT.GlänzelW.&SchubertA.2006A hirsch-type index for journals69116917310.1007/s11192-006-0147-4Search in Google Scholar
Cameron, D.E., Bashor, C.J., & Collins, J.J. (2014). A brief history of synthetic biology. Nature Reviews Microbiology, 12, 381–390.CameronD.E.BashorC.J.&CollinsJ.J.2014A brief history of synthetic biology1238139010.1038/nrmicro323924686414Search in Google Scholar
Chen, C. (2006). Information visualization: Beyond the horizon, Berlin: Springer.ChenC.2006BerlinSpringerSearch in Google Scholar
Cong, L., Ran, F.A., Cox, D., Lin, S., Barretto, R., Habib, N., Hsu, P.D., Wu, X., Jiang, W., & Marraffini, L.A. (2013). Multiplex genome engineering using CRISPR/Cassystems. Science, 339, 819–823.CongL.RanF.A.CoxD.LinS.BarrettoR.HabibN.HsuP.D.WuX.JiangW.&MarraffiniL.A.2013Multiplex genome engineering using CRISPR/Cassystems33981982310.1126/science.1231143379541123287718Search in Google Scholar
Cox, D.B.T., Gootenberg, J.S., Abudayyeh, O.O., Franklin, B., Kellner, M.J., Joung, J., & Zhang, F. (2017). Rna editing with crispr-cas13. Science, 358, 1019–1027.CoxD.B.T.GootenbergJ.S.AbudayyehO.O.FranklinB.KellnerM.J.JoungJ.&ZhangF.2017Rna editing with crispr-cas133581019102710.1126/science.aaq0180579385929070703Search in Google Scholar
Eck, N.J.V., & Waltman, L. (2010). Software survey: Vosviewer, a computer program for bibliometric mapping. Scientometrics, 84(2), 523–538.EckN.J.V.&WaltmanL.2010Software survey: Vosviewer, a computer program for bibliometric mapping84252353810.1007/s11192-009-0146-3288393220585380Search in Google Scholar
Esvelt, K.M., & Wang, H.H. (2013). Genome-scale engineering for systems and synthetic biology. Molecular Systems Biology, 9, 641–641.EsveltK.M.&WangH.H.2013Genome-scale engineering for systems and synthetic biology964164110.1038/msb.2012.66356426423340847Search in Google Scholar
Friedkin, N.E. (1991). Theoretical foundations for centrality measures. American Journal of Sociology, 96, 1478–1504.FriedkinN.E.1991Theoretical foundations for centrality measures961478150410.1086/229694Search in Google Scholar
Gibson, D.G., Glass, J.I., Lartigue, C., Noskov, V.N., Chuang, R.Y., Algire, M.A., Benders, G.A., Montague, M.G., Ma, L., & Moodie, M.M. (2010). Creation of a bacterial cell controlled by a chemically synthesized genome. 329(5987), 52–56.GibsonD.G.GlassJ.I.LartigueC.NoskovV.N.ChuangR.Y.AlgireM.A.BendersG.A.MontagueM.G.MaL.&MoodieM.M.20103295987525610.1126/science.1190719Search in Google Scholar
Hirsch, J.E. (2005). An index to quantify an individual’s scientific research output. Proceedings of the National Academy of Sciences of the United States of America, 102, 16569–16572.HirschJ.E.2005An index to quantify an individual’s scientific research output102165691657210.1073/pnas.0507655102128383216275915Search in Google Scholar
Horvath, P., & Barrangou, R. (2010). CRISPR/Cas, the immune system of bacteria and archaea. 327, 167–170.HorvathP.&BarrangouR.201032716717010.1126/science.117955520056882Search in Google Scholar
Knott, G.A., & Doudna, J.A. (2018). CRISPR-Casguides the future of genetic engineering. Science, 361, 866–869.KnottG.A.&DoudnaJ.A.2018CRISPR-Casguides the future of genetic engineering36186686910.1126/science.aat5011645591330166482Search in Google Scholar
Jinek, M., Chylinski, K., Fonfara, I., Hauer, M., Doudna, J.A., & Charpentier, E. (2012). A programmable dual-rna-guided DNA endonuclease in adaptive bacterial immunity. Science, 337, 816–821.JinekM.ChylinskiK.FonfaraI.HauerM.DoudnaJ.A.&CharpentierE.2012A programmable dual-rna-guided DNA endonuclease in adaptive bacterial immunity33781682110.1126/science.1225829628614822745249Search in Google Scholar
Lee, P.C., & Su, H.N. (2010). Investigating the structure of regional innovation system research through keyword co-occurrence and social network analysis. Innovation: Management, Policy& Practice, 12(1), 26–40.LeeP.C.&SuH.N.2010Investigating the structure of regional innovation system research through keyword co-occurrence and social network analysis121264010.5172/impp.12.1.26Search in Google Scholar
Liu, Q., & Ye, Y. (2012). A study on mining bibliographic records by designed software sati case study on library and information science. Journal of Information Resources Management, 22(1), 50–58.LiuQ.&YeY.2012A study on mining bibliographic records by designed software sati case study on library and information science2215058Search in Google Scholar
Ma, H., Marti-Gutierrez, N., Park, S.W., Wu, J., & Mitalipov, S. (2017). Correction of a pathogenic gene mutation in human embryos. Nature, 548, 413–419.MaH.Marti-GutierrezN.ParkS.W.WuJ.&MitalipovS.2017Correction of a pathogenic gene mutation in human embryos54841341910.1038/nature2330528783728Search in Google Scholar
Ma, X., Kong, L., & Zhu, S. (2017). Reprogramming cell fates by small molecules. Protein Cell, 8(5), 328–348.MaX.KongL.&ZhuS.2017Reprogramming cell fates by small molecules8532834810.1007/s13238-016-0362-6541359628213718Search in Google Scholar
Newman, M. (2004). Coauthorship networks and patterns of scientific collaboration. Proceedings of the National Academy of Science, 101, 5200–5205.NewmanM.2004Coauthorship networks and patterns of scientific collaboration1015200520510.1073/pnas.030754510038729614745042Search in Google Scholar
Paquet, D., Kwart, D., Chen, A., Sproul, A., Jacob, S., Teo, S., Olsen, K.M., Gregg, A., Noggle, S., & Tessier-Lavigne, M. (2016). Efficient introduction of specific homozygous and heterozygous mutations using CRISPR/Cas9. Nature, 533, 125–129.PaquetD.KwartD.ChenA.SproulA.JacobS.TeoS.OlsenK.M.GreggA.NoggleS.&Tessier-LavigneM.2016Efficient introduction of specific homozygous and heterozygous mutations using CRISPR/Cas953312512910.1038/nature1766427120160Search in Google Scholar
Scudellari, M. (2016). A decade of ips cells. Nature, 534, 310–312.ScudellariM.2016A decade of ips cells53431031210.1038/534310a27306170Search in Google Scholar
Su, H.N., & Lee, P.-C. (2010). Mapping knowledge structure by keyword co-occurrence: A first look at journal papers in technology foresight. Scientometrics, 85(1), 65–79.SuH.N.&LeeP.-C.2010Mapping knowledge structure by keyword co-occurrence: A first look at journal papers in technology foresight851657910.1007/s11192-010-0259-8Search in Google Scholar
Takahashi, K. (2006). Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors. Cell, 126, 663–676.TakahashiK.2006Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors12666367610.1016/j.cell.2006.07.02416904174Search in Google Scholar
Wang, P., Zhu, F., Song, H., & Hou, J. (2017). A bibliometric profile of current science between 1961 and 2015. Current Science, 113(3), 386–392.WangP.ZhuF.SongH.&HouJ.2017A bibliometric profile of current science between 1961 and 2015113338639210.18520/cs/v113/i03/386-392Search in Google Scholar
Wolfe, A.W. (1997). Social network analysis: Methods and applications. American Ethnologist, 24, 136–137.WolfeA.W.1997Social network analysis: Methods and applications2413613710.1525/ae.1997.24.1.219Search in Google Scholar
Yan, W.X., Hunnewell, P., Alfonse, L.E., Carte, J.M., Keston-Smith, E., Sothiselvam, S., Garrity, A.J., Chong, S., Makarova, K.S., Koonin, E.V., Cheng, D.R., & Scott, D.A. (2019). Functionally diverse type v CRISPR-Cassystems. Science, 363(6422), 88–91.YanW.X.HunnewellP.AlfonseL.E.CarteJ.M.Keston-SmithE.SothiselvamS.GarrityA.J.ChongS.MakarovaK.S.KooninE.V.ChengD.R.&ScottD.A.2019Functionally diverse type v CRISPR-Cassystems3636422889110.1126/science.aav727130523077Search in Google Scholar
Ye, F.Y. (2014). The research progress and developing perspective of assessment indicators. Journal of the China Scciety for Scientific and Technical Information, 33, 215–224.YeF.Y.2014The research progress and developing perspective of assessment indicators33215224Search in Google Scholar
Zetsche, B., Gootenberg, J.S., Abudayyeh, O.O., Slaymaker, I.M., Makarova, K.S., Essletzbichler, P., Volz, S.E., Joung, J., Van Der Oost, J., Regev, A., V.Koonin, E., & Zhang, F. (2015). Cpf1 is a single rna-guided endonuclease of a class 2 CRISPR-Cassystem. Cell, 163, 759–771.ZetscheB.GootenbergJ.S.AbudayyehO.O.SlaymakerI.M.MakarovaK.S.EssletzbichlerP.VolzS.E.JoungJ.Van Der OostJ.RegevA.V.KooninE.&ZhangF.2015Cpf1 is a single rna-guided endonuclease of a class 2 CRISPR-Cassystem16375977110.1016/j.cell.2015.09.038463822026422227Search in Google Scholar