泰国鸟类原始生殖细胞冷冻库倡议。

IF 1.2 4区 生物学 Q4 CELL BIOLOGY
Biopreservation and Biobanking Pub Date : 2023-10-01 Epub Date: 2022-09-28 DOI:10.1089/bio.2022.0043
Suparat Chaipipat, Kornkanok Sritabtim, Yanika Piyasanti, Sukumal Prukudom, Juthathip Jurutha, Vimolrat Phetpila, Rungthiwa Sinsiri, Jennarong Kammongkun, Amonrat Molee, Khongsak Thiangtum, Kannika Siripattarapravat
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引用次数: 2

摘要

背景:动物生殖组织或细胞的生物库可以长期保存物种的遗传和生殖能力,并促进生殖材料的共享。在鸟类中,原始生殖细胞(PGC)是最有希望保存在生物库中的生殖细胞之一,因为它具有自我更新的特性,并通过PGC转移直接进入生殖系。方法:为了保护具有重要保护意义的地方鸡品种的遗传资源,我们系统地从鸡胚循环和组织中分离出两种类型的性腺前PGCs。将单个胚胎的PGCs分别分离、培养和冷冻保存。对培养的PGCs的特性进行了描述和评价。结果:从单个胚胎中分离PGC的效率为98.9%(660/667)。在大多数情况下,匹配的循环和组织PGC系都是从同一胚胎中分离出来的(68.2%,450/660),而其余系来自单一来源,即组织(30.6%,202/660)或循环(1.2%,8/660)。在循环PGCs(分别为68.7%和64.3%)和组织PGCs(各自为97.8%和80.7%)的培养物中可以预期有效的PGC分离和增殖。冷冻保存后,回收的细胞保持PGC身份,包括鸡输精管同源物的表达和无精症样蛋白的缺失,以及向受体胚胎性腺的迁移能力。培养条件同样支持来自两性的循环和组织PGCs的增殖。在循环PGC培养无效的情况下,在该方案中结合组织PGC培养可防止30.3%的PGC培养物损失。培养的循环PGCs和组织PGCs在形态上相似,但最佳培养特性不同。结论:我们广泛应用了从血液和组织来源分离PGC的方法,并证明了其对鸡PGC生物库的有效性。在热带气候下,该工作流程几乎全年都可以有效运行。它还以充分和实用的细节进行了描述,适用于在其他条件下采用或优化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Initiative on Avian Primordial Germ Cell Cryobanking in Thailand.

Background: Biobanking the reproductive tissues or cells of animals preserves the genetic and reproductive ability of the species in long-term storage and promotes sharing of reproductive materials. In avian species, the primordial germ cell (PGC) is one of the most promising reproductive cells to be preserved in biobanks, due to self-renewal properties and direct access to the germ line mediated by PGC transfer. Methods: To conserve the genetic resource of local chicken breeds that are of conservation importance, we systematically isolated two types of pregonadal PGCs from chicken embryos-circulating and tissue PGCs. PGCs of individual embryos were separately isolated, cultured, and cryopreserved. Characteristics of cultured PGCs are described and evaluated. Results: The efficiency of PGC isolation from individual embryos was 98.9% (660/667). In most cases, both matching circulating and tissue PGC lines were isolated from the same embryo (68.2%, 450/660), whereas the remaining lines were from a single source, being either tissue (30.6%, 202/660) or circulating (1.2%, 8/660). Efficient PGC isolation and proliferation can be expected in cultures of circulating PGCs (68.7% and 64.3%, respectively) and tissue PGCs (97.8% and 80.7%, respectively). Following cryopreservation, recovered cells sustained PGC identities including expression of chicken vasa homolog and deleted in azoospermia-like proteins and migration ability to recipient embryonic gonads. Culture conditions equally supported proliferation of circulating and tissue PGCs from both sexes. Combining tissue PGC culture in the regimen prevented 30.3% loss of PGC cultures in the case where circulating PGC culture was ineffective. Cultured circulating and tissue PGCs were similar in morphology, but optimal culture characteristics were different. Conclusion: We applied the approach of PGC isolation from blood and tissue origins on a wide scale and demonstrated its efficiency for biobanking chicken PGCs. The workflow can be operated effectively almost year-round in a tropical climate. It was also described in ample and practical details, which are suitable for adoption or optimization in other conditions.

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来源期刊
Biopreservation and Biobanking
Biopreservation and Biobanking CELL BIOLOGY-MEDICAL LABORATORY TECHNOLOGY
CiteScore
3.30
自引率
12.50%
发文量
114
审稿时长
6-12 weeks
期刊介绍: Biopreservation and Biobanking is the first journal to provide a unifying forum for the peer-reviewed communication of recent advances in the emerging and evolving field of biospecimen procurement, processing, preservation and banking, distribution, and use. The Journal publishes a range of original articles focusing on current challenges and problems in biopreservation, and advances in methods to address these issues related to the processing of macromolecules, cells, and tissues for research. In a new section dedicated to Emerging Markets and Technologies, the Journal highlights the emergence of new markets and technologies that are either adopting or disrupting the biobank framework as they imprint on society. The solutions presented here are anticipated to help drive innovation within the biobank community. Biopreservation and Biobanking also explores the ethical, legal, and societal considerations surrounding biobanking and biorepository operation. Ideas and practical solutions relevant to improved quality, efficiency, and sustainability of repositories, and relating to their management, operation and oversight are discussed as well.
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