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Normal DNA methylation status in sperm from a somatic cell cloned bull and their fertilized embryos 
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下载免费PDF全文 Ken‐Ichi Yamanaka Kyoko Yamashita Hafiza Khatun Yasuhiko Wada Hideki Tatemoto Miki Sakatani Naoki Takenouchi Masashi Takahashi Shinya Watanabe 《Animal Science Journal》2018,89(10):1406-1414
Epigenetic reprogramming confers totipotency even during somatic cell nuclear transfer (SCNT), which has been used to clone various animal species. However, as even apparently healthy cloned animals sometimes have aberrant epigenetic status, the harmful effects of these defects could be passed onto their offspring. This is one of the biggest obstacles for the application of cloned animals for livestock production. Here, we investigated the DNA methylation status of four developmentally regulated genes (PEG3, XIST, OCT4, and NANOG) in sperms from a cloned and a non‐cloned bull, and blastocysts obtained by in vitro fertilization using those sperms and SCNT. We found no differences in the methylation status of the above genes between cloned and non‐cloned bull sperms. Moreover, the methylation status was also similar in blastocysts obtained with cloned and non‐cloned bull sperms. In contrast, the methylation status was compromised in the SCNT blastocysts. These results indicate that sperm from cloned bulls would be adequately reprogrammed during spermatogenesis and, thus, could be used to produce epigenetically normal embryos. This study highlights the normality of cloned bull offspring and supports the application of cloned cattle for calf production. 相似文献
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Ken‐ichi YAMANAKA Masahiro KANEDA Yasushi INABA Koji SAITO Kaiyu KUBOTA Miki SAKATANI Satoshi SUGIMURA Kei IMAI Shinya WATANABE Masashi TAKAHASHI 《Animal Science Journal》2011,82(4):523-530
Many observations have been made on cloned embryos and on adult clones by somatic cell nuclear transfer (SCNT), but it is still unclear whether the progeny of cloned animals is presenting normal epigenetic status. Here, in order to accumulate the information for evaluating the normality of cloned cattle, we analyzed the DNA methylation status on satellite I region in blastocysts obtained from cloned cattle. Embryos were produced by artificial insemination (AI) to non‐cloned or cloned dams using semen from non‐cloned or cloned sires. After 7 days of AI, embryos at blastocyst stage were collected by uterine flushing. The DNA methylation levels in embryos obtained by using semen and/or oocytes from cloned cattle were similar to those in in vivo embryos from non‐cloned cattle. In contrast, the DNA methylation levels in SCNT embryos were significantly higher (P < 0.01) than those in in vivo embryos from non‐cloned and cloned cattle, approximately similar to those in somatic cells used as donor cells. Thus, this study provides useful information that epigenetic status may be normal in the progeny of cloned cattle, suggesting the normality of germline cells in cloned cattle. 相似文献
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DNA methylation and expression of imprinted genes are associated with the viability of different sexual cloned buffaloes 下载免费PDF全文
下载免费PDF全文 Z Ruan X Zhao X Qin C Luo X Liu Y Deng P Zhu Z Li B Huang D Shi F Lu 《Reproduction in domestic animals》2018,53(1):203-212
The DNA methylation of imprinted genes is an important way to regulate epigenetic reprogramming of donor cells in somatic cell nuclear transfer (SCNT). However, the effects of sexual distinction on the DNA methylation of imprinted genes in cloned animals have seldom been reported. In this study, we analysed the DNA methylation status of three imprinted genes (Xist, IGF2 and H19) from liveborn cloned buffaloes (L group, three female and three male), stillborn cloned buffaloes (S group, three female and three male) and natural reproduction buffaloes (N group, three female and three male), using bisulphite sequencing polymerase chain reaction (BS‐PCR). The expression levels of these imprinted genes were also investigated by quantitative real‐time PCR (QRT‐PCR). The DNA methylation levels of H19 were not significantly different among the groups. However, the Xist in female and IGF2 in male of the S group were found to be significantly hypomethylated in comparison with the same sexual buffaloes in L group and N group (p < .05). Furthermore, the expression levels of Xist, IGF2 and H19 in the stillborn female cloned buffaloes of S group were significantly higher than that of the female buffaloes in the L group and N group (p < .05). The expression levels of IGF2 and H19 in the stillborn male cloned buffaloes in the S group were significantly higher than that of the male buffaloes in the L group and N group (p < .05). These results indicate that Xist may be associated with the viability of female cloned buffaloes, and IGF2 may also be related to the viability of male cloned buffaloes. 相似文献
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In India, cross‐breeding of indigenous cattle with exotic cattle such as Holstein Friesian and Jersey has been going on since last four decades to improve milk production. Although it has led to increased milk yield, the subfertility in male cross‐bred progeny has remained a significant problem. Epigenetic modifications (DNA methylation, histone modifications and chromatin remodelling) are regarded as key players influencing gene expression. DAZL gene plays an important role in germline development and gametogenesis. The methylation and mRNA expression level of this gene have been significantly negatively correlated in the testes of cattle–yak hybrids and their parents. This study analysed the methylation profile of DAZL gene promoter in bull spermatozoa in an attempt to speculate its role in cross‐bred cattle subfertility. Semen samples from Sahiwal, Holstein Friesian and Frieswal bulls (Sahiwal X Holstein Friesian) with varying semen motility parameters were collected, and DNA was isolated. Methylation‐specific primers were used to amplify part of promoter and exon 1 of DAZL gene using bisulphite‐converted DNA. The amplified products were sequenced after cloning in pTZ57R/T vector. Sequence analysis revealed significantly higher DNA methylation of DAZL gene in Frieswal bulls with poor motility (28.26%) as compared to medium (15.21%) and high motility phenotype (6.52%). In pure‐bred counterparts, Sahiwal and Holstein Friesian, epigenetic marks were more in the former (15.21%) than the latter (4.34%), but in both cases, the values were lower as compared to the poor motility Frieswal bulls. This suggests that differential hypermethylation of the CpG islands could possibly influence reproductive parameters in bovines. 相似文献
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Keyvan Karami Saeed Zerehdaran Ali Javadmanesh Mohammad Mahdi Shariati Hossien Fallahi 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2019,136(3):205-216
Imprinted genes display biased expression of paternal and maternal alleles in mammals. They are marked through epigenetic process during gametogenesis. Characterization of imprinted genes has expanded our understanding of the regulation and function of genes. In the current study, 22 experimentally validated imprinted genes in bovine (Bos Taurus) were analysed. Several supervised machine learning algorithms and attribute weighting methods were used to find characteristics of different types of imprinted genes and suggest a classification method for finding maternally and paternally expressed genes in bovine. For assessing the best model and comparing attributes in other organisms, we have also conducted a comparative analysis for human and sheep imprinted genes. According to the results of the present study, GC contents 10 and 100 kb upstream, Gly and Gln amino acids, Ile/ATC codon usage, LINE and SINE in 100kbup and length of first intron were significantly different between the maternal and paternal genes in cattle. Considering all species together, we found that GC content 100 kb up, LINE 100 kb up and the frequency of amino acids like Gly, Gln and Met were the most important attributes for identifying the paternal and maternal imprinted genes. These findings could imply conservation pattern in the attributes among these species. 相似文献
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基因组印记是一种表观调控机制,在哺乳动物的发育中具有重要作用。印记基因是仅一方亲本来源的同源基因表达,而来自另一亲本不表达的一种基因。近年来,印记基因被广泛研究。印记基因分为父系印记基因和母系印记基因,其表达具有组织特异性,而且在胚胎不同发育阶段的表达也具有一定差异,胚胎期的营养水平也影响印记基因的表达。DNA甲基化在调控印记基因的表达中起重要作用,影响细胞核移植过程细胞的表观重编程,并影响胎盘及内脏器官的正常发育;基因印记模式的改变也可以引起甲基化的改变进而导致基因印记的丢失等。本文综述了近年来关于牛的印记基因的研究进展情况,为印记基因的后续相关研究工作提供借鉴。 相似文献
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Tatsuo Kawarasaki Satoko Enya Masayoshi Otake Masatoshi Shibata Satoshi Mikawa 《Animal Science Journal》2017,88(11):1801-1810
To assess the performance of boars derived by somatic cell cloning, we analyzed various aspects of their reproductive characteristics and the expression of two imprinted genes. Cloned boars (cloned Duroc × Jinhua) were analyzed for birth weight, growth rate, age at first ejaculation, semen characteristics and fertility, in comparison with naturally bred control boars of the same strain. The expression of imprinted genes was analyzed using the microsatellite marker SWC9 for the paternally expressed gene insulin‐like growth factor ‐2 (IGF2) and with single nucleotide polymorphisms (SNPs) for the gene maternally expressed 3 (MEG3). The cloned boars had high production of semen and were nearly equal in level of fertility to conventional pigs; they showed similar characteristics as naturally bred boars of the same strains. The expression of IGF2 was partially disturbed, but this disturbed expression was not linked to a change in developmental fate or reproductive performance. These results indicate that use of cloned boars could be highly effective for proliferation of pigs with desirable characteristics, preservation of genetic resources and risk reduction against epidemic diseases, such as foot‐and‐mouth disease, through storage of somatic cells as a precautionary measure for use in regenerating pig populations after a future pandemic. 相似文献
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Julia Devos Amir Behrouzi Francois Paradis Christina Straathof Changxi Li Marcos Colazo Hushton Block Carolyn Fitzsimmons 《Journal of animal science》2021,99(5)
Discovery of epigenetic modifications associated with feed efficiency or other economically important traits would increase our understanding of the molecular mechanisms underlying these traits. In combination with known genetic markers, this would provide opportunity to improve genomic selection accuracy in cattle breeding programs. It would also allow cattle to be managed to improve favorable gene expression. The objective of this study was to identify variation in DNA methylation between beef cattle of differential pre-natal nutrition and divergent genetic potential for residual feed intake (RFI). Purebred Angus offspring with the genetic potential for either high (HRFI) or low (LRFI) RFI were prenatally exposed to either a restricted maternal diet of 0.5 kg/d average daily gain (ADG) or a moderate maternal diet of 0.7 kg/d ADG from 30 to 150 d of gestation. We performed DNA methylation analysis of differentially methylated regions (DMR) of imprinted genes (Insulin-like growth factor 2 (IGF2) DMR2, IGF2/H19 imprinting control region (ICR) and IGF2 receptor (IGF2R) DMR2) using post-natal samples of longissimus dorsi (LD) muscle taken from male and female calves at birth and weaning, and of LD muscle, semimembranosus (SM) muscle, and liver samples collected from steers at slaughter (17 months of age). Interestingly, for all three DMR investigated in liver, LRFI steers had higher levels of methylation than HRFI steers. In LD muscle, IGF2/H19 ICR methylation differences for heifers at birth were due to pre-natal diet, while for steers at birth they were mostly the result of genetic potential for RFI with LRFI steers again having higher levels of methylation than HRFI steers. While results from repeated measures analysis of DNA methylation in steers grouped by RFI revealed few differences, in steers grouped by diet, we found higher methylation levels of IGF2 DMR2 and IGF2R DMR2 in LD muscle of restricted diet steers at weaning and slaughter than at birth, as well as increased methylation in LD muscle of restricted diet steers compared with moderate diet steers at weaning and/or slaughter. Our results suggest that differential pre-natal nutrition, and divergent genetic potential for RFI, induces tissue- and sex-specific alterations in post-natal IGF2 and IGF2R methylation patterns and that these patterns can vary with age in Angus beef cattle. 相似文献
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Successful cloning requires reprogramming of epigenetic information of the somatic nucleus to an embryonic state. However, the molecular mechanisms regarding epigenetic reprogramming of the somatic chromatin are unclear. Herein, we transferred NIH3T3 cell nuclei into enucleated mouse oocytes and evaluated the histone H3 dimethyl-lysine 4 (H3K4me2) dynamics by immunocytochemistry. A low level of H3K4me2 in the somatic chromatin was maintained in pseudo-pronuclei. Unlike in vitro fertilized (IVF) embryos, the methylation level of nuclear transfer (NT) embryos was significantly increased at the 8-cell stage. NT embryos showed lower H3K4me2 intensity than IVF embryos at the 2-cell stage, which is when the mouse embryonic genome is activated. Moreover, the H3K4me2 signal was weak in the recloned embryos derived from single blastomeres of the NT embryos, whereas it was intense in those from IVF embryos. Two imprinted genes, U2afbp-rs and Xist, were abnormally transcribed in cloned embryos compared with IVF embryos, and this was partly correlated to the H3K4me2 level. Our results suggest that abnormal reprogramming of epigenetic markers such as histone acetylation and methylation may lead to dysregualtion of gene expression in cloned embryos. 相似文献
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G. Lühken K. Glenske H. Brandt G. Erhardt 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2010,127(5):411-418
Husbandry of beef cattle requires animals that do not behave aggressively or timidly. The enzyme monoamine oxidase A and the coding gene (MAOA) play an important role in the complex regulation of behaviour. The complete coding region and a part of the non‐coding sequence of the bovine MAOA gene have been analysed in 20 German Angus and 20 German Simmental bulls and cows with the aim of detecting genetic variability. These two cattle breeds are known to differ regarding their behaviour during handling. Five single nucleotide polymorphisms (SNPs) were identified, three of which were found in the coding region of the gene (exons III and XV). One of the SNPs located in exon XV ( NC_007331.3 :g.80340C>T) was found to be a non‐synonymous mutation. The minor allele frequency of this resulting amino acid substitution was significantly different between 543 German Angus and 417 German Simmental calves (0.39 and 0.49, respectively). The potential functional impact of this polymorphism has been tested by in silico analysis, as well as by association analysis using behaviour scores of the genotyped calves for three behaviour tests that assessed the animals’ temperament during tethering, weighing or social separation. In silico analysis did not deliver consistent results arguing for or against a functional impact of the studied amino acid substitution on the function of the biological protein. No significant association was found between this MAOA polymorphism and the behaviour‐related scores analysed in the study. 相似文献
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Genomic imprinting and DNA methylation play an important role in mammalian development. Many cloned animals showed heterogeneous DNA methylation profiles. However, there are fewer reports in cloned lambs because of a lack of genomic imprinting information. In this study, we investigated DNA methylation patterns in CpG islands and differentially methylated regions of putative imprinted gene Peg10 and imprinted genes Dlk1, Igf2R and H19 in cloned lambs. Five organs from two cloned lambs died shortly after birth and two normal controls were investigated. We observed normal DNA methylation profiles in cloned lambs. The imprinted genes Dlk1, Igf2R and H19 in livers, kidneys, hearts, muscles and lungs of the two cloned lambs exhibited relatively normal DNA methylation, except for Peg10 showing some differences between controls and cloned lambs. Our results indicate that somatic cell nuclear transfer-produced sheep exhibited relatively normal DNA methylation pattern and experienced normal DNA methylation reprogramming at imprinted loci. 相似文献
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体细胞核移植(somatic cell nuclear transfer,SCNT)是一种能将已分化的体细胞重编程为全能胚胎的繁殖生物技术,在良种扩繁、濒危物种保护和治疗性克隆等方面有着广泛的应用前景,但极低的克隆效率、克隆动物胎盘异常、出生后胎儿畸形等严重限制了该技术的实际应用。造成克隆效率低和胚胎发育异常的主要原因是供体核表观遗传重编程错误或不完全。1958年,将非洲爪蟾(Xenopus laevis)幼体肠细胞核移入去核卵母细胞,获得了第1例SCNT动物个体;1986年,通过电融合1个卵裂球与去核卵母细胞成功获得了3只存活的羔羊;1997年,将成年母羊的乳腺上皮细胞与去核卵细胞电融合,获得首个SCNT哺乳动物"多利",开启了克隆时代,目前牛、小鼠、山羊、猪、欧洲盘羊、家兔、家猫、马、大鼠、骡子、狗、雪貂、狼、水牛、红鹿、单峰骆驼、食蟹猴等相继成功克隆,其中最引人瞩目的是2018年食蟹猴的成功克隆。作者通过将SCNT胚胎与受精胚胎的发育进行对比,阐述了SCNT过程中DNA甲基化、组蛋白修饰、基因组印迹、染色体状态等的重编程过程和缺陷,并从表观修饰剂、组蛋白去甲基化酶、抑制Xist表达、补充鱼精蛋白和精子RNA方面探讨单独或联合消除表观遗传重编程障碍对克隆效率的影响。随着低样本量测序技术的发展和完善,人们能够在SCNT胚胎中检测到更详细的全基因组表观遗传修饰图谱,进一步揭示SCNT胚胎表观遗传重编程中的缺陷,为提高克隆效率提供了线索。通过上述内容的阐述,希望为后续开发联合消除多种表观遗传障碍而提高克隆效率的策略和思路。 相似文献
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TG McEvoy 《Reproduction in domestic animals》2003,38(4):268-275
Assisted reproductive technologies, as applied to domestic animals, can exert both novel and wide‐ranging influences on the development, viability and welfare of offspring. Some of the changes are evident immediately or soon after the time at which a manipulative procedure is carried out, while other changes may not be evident until later in development or, perhaps, may remain undetected throughout an animal's lifetime. The present review explores some of the consequences – in terms of foetal, placental, neonatal and post‐natal effects – of exposing embryos of cattle, sheep and other species to in vitro culture per se or, during culture, to physically invasive technologies including gene injection and nuclear transfer. The innate sensitivity of oocytes and recently fertilized eggs to their in vitro environment is illustrated by an examination of the later developmental repercussions resulting from apparently innocuous choices related to in vitro culture medium formulations. In contrast, an inherent resilience and paradoxical readiness to resume development following the traumas of nuclear transfer procedures is also in evidence. The extent to which assisted reproductive technologies will succeed, where relevant, in the domestic animal sector will be influenced by our appreciation of embryo requirements, for both short‐ and long‐term developmental fitness, during their earliest developmental stages. Evidence of species‐specific needs is testimony to the challenges ahead. Ultimately, our ability and inclination to resolve the limitations associated with current procedures will probably be greatly enhanced if predictive indicators (genetic, epigenetic or functional markers) of later developmental fitness can be identified. 相似文献
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Effect of Reproductive Seasonality on Gamete Quality in the North American Bison (Bison bison bison) 下载免费PDF全文
下载免费PDF全文 S Krishnakumar DP Whiteside B Elkin JC Thundathil 《Reproduction in domestic animals》2015,50(2):206-213
The objective was to investigate the effects of reproductive seasonality on gamete quality in plains bison (Bison bison bison). Epididymal sperm (n = 61 per season), collected during the breeding season (July–September), had significantly higher post‐thaw total motility (36.76 ± 14.18 vs 31.24 ± 12.74%), and lower linearity (0.36 ± 0.06 vs 0.39 ± 0.04) and wobbliness (0.49 ± 0.04 vs 0.51 ± 0.03; mean ± SD) compared to non‐breeding season (January–March) samples. Representative samples (n = 4) from each season were used in heterologous IVF trials using cattle oocytes. Cleavage, morulae and blastocyst percentage were higher for breeding vs non‐breeding season sperm samples (81.88 ± 6.8 vs 49.94 ± 6.77; 41.89 ± 13.40 vs 27.08 ± 23.21; and 30.49 ± 17.87 vs 13.72 ± 18.98%, respectively). Plains bison ovaries collected during the breeding (n = 97 pairs) and non‐breeding (n = 100 pairs) seasons were classified as luteal or follicular. Oocytes recovered from these ovaries were classified into five grades based on morphology. There was no significant difference in the number of luteal ovaries or grades of oocytes recovered. Oocytes were matured, fertilized (with frozen sperm from three bison bulls) and cultured in vitro. Cleavage percentage was higher for oocytes collected during breeding vs non‐breeding season (83.72 ± 6.42 vs 73.98 ± 6.43), with no significant difference in subsequent development to blastocysts. In summary, epididymal sperm from non‐breeding season had decreased total motility and resulted in reduced embryo production in vitro. Oocytes collected during non‐breeding season had reduced ability to be matured, fertilized and/or undergo cleavage in vitro. Data suggested that season influenced gamete quality in plains bison. 相似文献
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Yuuki ISAJI Koki YOSHIDA Hiroshi IMAI Masayasu YAMADA 《The Journal of reproduction and development》2015,61(6):503-510
In mouse somatic cell nuclear transfer (SCNT), polyvinylpyrrolidone (PVP) is typically included in the
nuclear donor injection medium. However, the cytotoxicity of PVP, which is injected into the cytoplasm of
oocytes, has recently become a cause of concern. In the present study, we determined whether bovine serum
albumin deionized with an ion-exchange resin treatment (d-BSA) was applicable to the nuclear donor injection
medium in SCNT as an alternative to PVP. The results obtained showed that d-BSA introduced into the cytoplasm
of an enucleated oocyte together with a donor nucleus significantly enhanced the rate of in
vitro development of cloned embryos to the blastocyst stage compared with that of a conventional
nuclear injection with PVP in SCNT. We also defined the enhancing effects of d-BSA on the blastocyst formation
rate when d-BSA was injected into the cytoplasm of oocytes reconstructed using the fusion method with a
hemagglutinating virus of Japan envelope before oocyte activation. Furthermore, immunofluorescence experiments
revealed that the injected d-BSA increased the acetylation levels of histone H3 lysine 9 and histone H4 lysine
12 in cloned pronuclear (PN) and 2-cell embryos. The injection of d-BSA before oocyte activation also
increased the production of cloned mouse offspring. These results suggested that intracytoplasmic injection of
d-BSA into SCNT oocytes before oocyte activation was beneficial for enhancing the in vitro
and in vivo development of mouse cloned embryos through epigenetic modifications to nuclear
reprogramming. 相似文献