Biotechnology Bulletin ›› 2020, Vol. 36 ›› Issue (3): 54-61.doi: 10.13560/j.cnki.biotech.bull.1985.2020-0008
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HAN Mei, YUAN Chao, GUO Ting-ting, WU Yi, YUE Yao-jing, YANG Bo-hui
Received:
2020-01-03
Online:
2020-03-26
Published:
2020-03-17
HAN Mei, YUAN Chao, GUO Ting-ting, WU Yi, YUE Yao-jing, YANG Bo-hui. Research Progress on Handmade Cloning in Mammalian[J]. Biotechnology Bulletin, 2020, 36(3): 54-61.
[1] Briggs R, King TJ.Transplantation of living nuclei from blastula cells into enucleated frogs’ eggs[J]. Proc Natl Acad Sci USA, 1952, 38(5):455-463. [2] Wilmut I, Schnieke AE, McWhir J, et al. Viable offspring derived from fetal and adult mammalian cells[J]. Nature(London), 1997, 385(6619):810-813. [3] Robl JM, Prather R, Barnes F, et al.Nuclear transplantation in bovine embryos[J]. J Anim Sci, 1987, 64(2):642-647. [4] Baguisi A, Behboodi E, Melican DT, et al.Production of goats by somatic cell nuclear transfer[J]. Nat Biotechnol, 1999, 17(5):456-461. [5] Onishi A, Iwamoto M, Akita T, et al.Pig cloning by microinjection of fetal fibroblast nuclei[J]. Science, 2000, 289(5482):1188-1190. [6] Willadsen SM.Nuclear transplantation in sheep embryos[J]. Nature, 1986, 320(6057):63-65. [7] Wakayama T, Perry AC, Zuccotti M, et al.Full-term development of mice from enucleated oocytes injected with cumulus cell nuclei[J]. Nature, 1998, 394(6691):369-374. [8] Vajta G, Lewis IM, Hyttel P, et al.Somatic cell cloning without micromanipulators[J]. Cloning, 2001, 3(2):89-95. [9] Vajta G.Handmade cloning:the future way of nuclear transfer?[J]. Trends in Biotechnology, 2007, 25(6):250-253. [10] Khan S, Tali M, Khan A, et al.Comparison of efficiency of in vitro cloned sheep embryo production by conventional somatic cell nuclear transfer and handmade cloning technique[J]. Reproduction in Domestic Animals, 2018, 53(2):512-518. [11] Tatham BG, Dowsing AT, Trounson AO.Enucleation by centrifugation of in vitro-matured bovine oocytes for use in nuclear transfer[J]. Biology of reproduction, 1995, 53(5):1088-1094. [12] Peura TT, Lewis IM, Trounson AO.The effect of recipient oocyte volume on nuclear transfer in cattle[J]. Molecular reproduction and development, 1998, 50(2):185-191. [13] Vajta G, Bartels P, Joubert J, et al.Production of a healthy calf by somatic cell nuclear transfer without micromanipulators and carbon dioxide incubators using the Handmade Cloning(HMC)and the Submarine Incubation System(SIS)[J]. Theriogenology, 2004, 62(8):1465-1472. [14] Lagutina I, Lazzari G, Duchi R, et al.Somatic cell nuclear transfer in horses:Effect of oocyte morphology, embryo reconstruction method and donor cell type[J]. Reproduction, 2005, 130(4):559-567. [15] Ribas R, Oback B, Ritchie W, et al.Modifications to Improve the Efficiency of Zona-Free Mouse Nuclear Transfer[J]. Cloning and Stem Cells, 2006, 8(1):10-15. [16] Du Y, Kragh PM, Zhang Y, et al.Piglets born from handmade clon-ing, an innovative cloning method without micromanipulation[J]. Theriogenology, 2007, 68(8):1104-1110. [17] Lagutina I, Lazzari G, Duchi R, et al.Comparative aspects of somatic cell nuclear transfer with conventional and zona-free method in cattle, horse, pig and sheep[J]. Theriogenology, 2006, 67(1):90-98. [18] 吕玲燕, 吴永绍, 陈宝剑, 等. 猪手工克隆重构胚胎发育效果影响的最佳VPA浓度初探[J]. 基因组学与应用生物学, 2016, 35(9):2336-2341. [19] Quan GB, Ma Y, Ni YN, et al.Effects of synthetic polymers on in vitro maturation of sheep oocytes and subsequent developmental capacity after parthenogenetic activation or fertilization[J]. Small Ruminant Research, 2017, 153:153-157. [20] Zhang MY, Yang HW, et al.Production of Phytase Transgenic Porcine Blastocysts by Handmade Cloning[J]. Journal of Biobased Materials and Bioenergy, 2018, 12(7):168-174. [21] Gómez N, Ramirez M, Ruiz Cortés Z.Primary fibroblast cell cycle synchronization and effects on handmade cloned(HMC)bovine embryos[J]. Ciência Animal Brasileira, 2018, 19(19):1-17. [22] Moulavi F, Hosseini SM.Development of a modified method of handmade cloning in dromedary camel[J]. PLoS One, 2019, 14(4):e0213737. [23] Verma G, Arora JS, Sethi RS, et al.Handmade cloning:Recent advances, potential and pitfalls[J]. Journal of animal science and biotechnology, 2015, 6(1):43-43. [24] Illmensee K, Hoppe PC.Nuclear transplantation in mus musculus:Developmental potential of nuclei from preimplantation embryos[J]. Cell, 1981, 23(1):9-18. [25] Kragh PM, Nielsen AL, Li J, et al.Hemizygous minipigs produced by random gene insertion and handmade cloning express the Alzheimer’s disease-causing dominant APPsw[J]. Transgenic Research, 2009, 18(4):545-558. [26] 张鹏, 杨珍珍, 窦红伟, 等. 利用改进的手工克隆技术生产转GFP基因猪克隆胚胎[J]. 遗传, 2011, 33(5):117-122. [27] 马芳, 刘旭林. 世界首例转基因手工克隆绵羊成功诞生[J]. 北京农业, 2012, 39(14):67-67. [28] 周荣, 周秀, 罗绿花, 等. 利用手工克隆技术培育体细胞克隆莱芜猪[J]. 广东畜牧兽医科技, 2013, 38(2):26-29. [29] 陆杏蓉, 孙俊铭, 李志鹏, 等. 甲基化酶抑制剂5-Aza-CdR处理对德保猪手工克隆胚胎体外发育潜能的影响[J]. 畜牧兽医学报, 2014, 45(08):1274-1281. [30] 李飞达, 李勇, 等. 利用TALENs和手工克隆技术高效获得GHR基因敲除巴马猪[J]. 遗传, 2014, 36(9):903-911. [31] Yang ZZ, Vajta G, Xu Y, et al.Production of pigs by Hand-made cloning using mesenchymal stem cells and fibroblasts[J]. Cellular Reprogramming, 2016, 18(4):256-263. [32] Jyotsana B, Sahare AA, Raja AK, et al.Use of peripheral blood for production of buffalo(Bubalus bubalis)embryos by Hand-made cloning[J]. Theriogenology, 2016, 86(5):1318-1324. [33] Sun JM, Cui QK, Li ZP, et al.Suberoylanilide hydroxamic acid, a novel histone deacetylase inhibitor, improves the development and acetylation level of miniature porcine Handmade cloning embryos[J]. Reproduction in Domestic Animals, 2017, 52(5):763-774. [34] Selokar NL, Saini M, Agrawal H, et al.Valproic acid increases histone acetylation and alters gene expression in the donor cells but does not improve the in vitro developmental competence of Buffalo(Bubalus bubalis)embryos produced by hand-made cloning[J]. Cellular Reprogramming, 2017, 19(1):10-18. [35] 孙俊铭, 崔奎青, 李志鹏, 等. SAHA处理对猪手工克隆胚胎体外发育潜能的影响[J]. 黑龙江畜牧兽医, 2018, (5):104-108. [36] Saini M, Selokar NL, Raja AK, et al.Effect of donor cell type on developmental competence, quality, gene expression, and epigenetic status of interspecies cloned embryos produced using cells from wild buffalo and oocytes from domestic buffalo[J]. Theriogenology, 2015, 84(1):101-108. [37] Elsheikh AS, Takahashi Y, Hishinuma M, et al.Developmental ability of mouse late 2-cell stage blastomeres fused to chemically enucleated oocytes in vitro[J]. J Vet Med Sci, 1997, 59(2):107-113. [38] Mohapatra SK, Sandhu A, Neerukattu VS, et al.Buffalo embryos produced by handmade cloning from oocytes selected using brilliant cresyl blue staining have better developmental competence and quality and are closer to embryos produced by in vitro fertilization in terms of their epigenetic status and gene expression pattern[J]. Cellular Reprogramming, 2015, 17(2):141-150. [39] Ribeiro ES, Gerger RP, Ohlweiler LU, et al.Developmental potential of bovine hand-made clone embryos reconstructed by aggregation or fusion with distinct cytoplasmic volumes[J]. Cloning and Stem Cells, 2009, 11(3):377-386. [40] Zhang P, Liu P, et al.Handmade cloned transgenic sheep rich in omega-3 fatty acids[J]. PLoS One, 2013, 8(2):e55941. [41] Zhang P, Zhang Y, Dou H, et al.Handmade cloned transgenic piglets expressing the nematode fat-1 gene[J]. Cellular Reprogramming, 2012, 14(3):258-266. [42] Akshey YS, Malakar D, De AK, et al.Effect of roscovitine treated donor cells and different activation methods on development of handmade cloned goat(Capra hircus)embryos[J]. Theriogenology, 2011, 75(8):1516-1524. [43] Jena MK, Malakae D, De AK, et al.Handmade cloned and parthenogenetic goat embryos - A comparison of different culture media and donor cells[J]. Small Ruminant Research, 2012, 105(1-3):255-262. [44] Liu T, Dou HW, Xiang X, et al.Factors determining the efficiency of porcine somatic cell nuclear transfer:Data analysis with over 200, 000 reconstructed embryos[J]. Cellular reprogramming, 2015, 17(6):463-471. [45] Liu Z, Cai Z, Wang YJ, et al.Cloning of macaque monkeys by somatic cell nuclear transfer[J]. Cell, 2018, 172(4):881-887. [46] Campbell KH, Loi P, Otaegui PJ, et al.Cell cycle co-ordination in embryo cloning by nuclear transfer[J]. Reviews of reproduction, 1996, 1(1):40-46. [47] Selokar NL, Saini M, Muzaffer M, et al.Roscovitine treatment improves synchronization of donor cell cycle in G0/G1 stage and in vitro development of handmade cloned buffalo(Bubalus bubalis)embryos[J]. Cellular Reprogramming, 2012, 14(2):146-154. [48] Loos FD, Vliet CV, Maurik PV, et al.Morphology of immature bovine oocytes[J]. Molecular Reproduction & Development, 1989, 24(2):197-204. [49] Borah M, Nath NC, et al.Handmade cloning for embryo production in goat, Assam, India[J]. International Journal of Current Microbiology and Applied Sciences, 2018, 7(5):2518-2529. [50] Mohapatra SK, Sandhu A, Neerukattu VS, et al.Buffalo embryos produced by handmade cloning from oocytes selected using brilliant cresyl blue staining have better developmental competence and quality and are closer to embryos produced by in vitro fertilization in terms of their epigenetic status and gene expression pattern[J]. Cellular Reprogramming, 2015, 17(2):141-150. [51] Campbell KH, RitchieI WA, Wilmut I. Nuclear-cytoplasmic interactions during the first cell cycle of nuclear transfer reconstructed bovine embryos:implications for deoxyribonucleic acid replication and development[J]. Biol Reprod, 1993, 49(5):933-942. [52] Vajta G, Lewis IM, Trounson AO, et al.Handmade somatic cell cloning in cattle:Analysis of factors contributing to high efficiency in vitro[J]. Biology of reproduction, 2003, 68(2):571-578. [53] Li J, Villemoes K, Zhang Y, et al.Efficiency of two enucleation methods connected to handmade cloning to produce transgenic porcine embryos[J]. Reproduction in Domestic Animals, 2008, 44(1):122-127. [54] Akshey YS, Malakar D, De A, et al.Study of the efficiency of chemically assisted enucleation method for handmade cloning in goat(Capra hircus)[J]. Reproduction in Domestic Animals, 2010, 46(4):699-704. [55] Akshey YS, Malakar D, De AK, et al.Effect of roscovitine treated donor cells and different activation methods on development of handmade cloned goat(Capra hircus)embryos[J]. Theriogenology, 2011, 75(8):1516-1524. [56] Selokra N, Shah R, Saha A, et al.Effect of post-fusion holding time, orientation and position of somatic cell-cytoplasts during electrofusion on the development of handmade cloned embryos in buffalo(Bubalus bubalis)[J]. Theriogenology, 2012, 78(4):930-936. [57] Vajta G, Peura TT, Holm P, et al.New method for culture of zona-included or zona-free embryos:The Well of the Well(WOW)system[J]. Molecular Reproduction and Development, 2000, 55(3):256-264. [58] Kaith S, Saini M, Raja AK, et al.Early cleavage of handmade cloned Buffalo(Bubalus bubalis)embryos is an indicator of their developmental competence and quality[J]. Reproduction in Domestic Animals, 2015, 50(2):214-220. [59] Shah R, George A, Singh MK, et al.Hand-made cloned buffalo(Bubalus bubalis)embryos:Comparison of different media and culture systems[J]. Cloning and Stem Cells, 2008, 10(4):435-442. [60] Kitiyanant Y, Saikhun J, Chaisalee B, et al.Somatic cell cloning in buffalo(Bubalus bubalis):Effects of interspecies cytoplasmic recipients and activation procedures[J]. Cloning and Stem Cells, 2001, 3(3):97-104. [61] Shi D, Lu F, Wei Y, et al.Buffalos(Bubalus bubalis)cloned by nuclear transfer of somatic cells[J]. Biology of Reproduction, 2007, 77(2):285-291. [62] George A, Sharma R, Singh KP, et al.Production of cloned and transgenic embryos using buffalo(Bubalus bubalis)embryonic stem cell-like cells isolated from in vitro fertilized and cloned blastocysts[J]. Cell Reprogram, 2011, 13(3):263-272. [63] Saini M, Selokar NL, Agrawal H, et al.Treatment of donor cells and reconstructed embryos with a combination of trichostatin-A and 5-aza-2’-Deoxycytidine Improves the Developmental competence and quality of buffalo embryos produced by handmade cloning and alters their epigenetic status and gene expression[J]. Cell Reprogram, 2017, 19(3):208-215. [64] Kang YK, Koo DB, Park JS, et al.Aberrant methylation of donor genome in cloned bovine embryos[J]. Nature Genetics, 2001, 28(2):173-177. [65] 杨正田, 沈伟, 邓继先. 体细胞核移植胚胎核重编程的研究进展[J]. 遗传学报, 2004, 31(6):641-646. [66] Suteevun T, Parnpai R, Marjani SL, et al.Epigenetic characteristics of cloned and in vitro-fertilized swamp buffalo(Bubalus bubalis)embryos[J]. Journal of Animal Science, 2006, 84(8):2065-2071. [67] Matoba S, Liu Y, Lu F, et al.Embryonic development following somatic cell nuclear transfer impeded by persisting histone methylation[J]. Cell, 2014, 159(4):884-895. [68] Xie B, Zhang H, Wei R, et al.Histone H3 lysine 27 trimethylation acts as an epigenetic barrier in porcine nuclear reprogramming[J]. Reproduction, 2015, 151(1):9-16. [69] Matoba S, Zhang Y.Somatic cell nuclear transfer reprogramming:Mechanisms and applications[J]. Cell Stem Cell, 2018, 23(4):471-485. [70] Sadeesh EM, Fozia S, Meena K.Combined positive effect of oocyte extracts and brilliant cresyl blue stained recipient cytoplasts on epigenetic reprogramming and gene expression in buffalo nuclear transfer embryos[J]. Cytotechnology, 2017, 69(2):289-305. [71] Jafari S, Hosseini MS, Hajian M, et al.Improved in vitro develop-ment of cloned bovine embryos using S-adenosylhomocysteine, a non-toxic epigenetic modifying reagent[J]. Molecular Reproduction and Development, 2011, 78(8):576-584. [72] Wang YS, Xiong XR, An ZX, et al.Production of cloned calves by combination treatment of both donor cells and early cloned embryos with 5-aza-2/-deoxycytidine and trichostatin A[J]. Theriogenology, 2010, 75(5):819-825. [73] Xu W, Li Z, Yu B, et al.Effects of DNMT1 and HDAC inhibitors on gene-specific methylation reprogramming during porcine somatic cell nuclear transfer[J]. PloS one, 2013, 8(5):e64705. [74] 吴霄, 李果, 敖政, 等. 过表达H3K9me3去甲基化酶对猪克隆胚胎体外发育效率的影响[J]. 广东农业科学, 2017, 44(10):96-101. [75] Zhang Y, Wang Q, Liu K, et al.Treatment of donor cells with recombinant KDM4D protein improves preimplantation development of cloned ovine embryos[J]. Cytotechnology, 2018, 70(5):1-9. |
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