Improving Ultra-Low Temperature Preservation Technologies of Soybean Pollen for Off-Season and Off-Site Hybridization

Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of so...

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Vydáno v:	Frontiers in plant science Ročník 13; s. 920522
Hlavní autoři:	Jia, Hongchang, Liang, Xin, Zhang, Lixin, Zhang, Jinmei, Sapey, Enoch, Liu, Xianyuan, Sun, Yanhui, Sun, Shi, Yan, Hongrui, Lu, Wencheng, Han, Tianfu
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Lausanne Frontiers Media SA 30.06.2022 Frontiers Media S.A
Témata:	Agronomy Dehydration Flowers & plants germination rate Germplasm Humidity Hybridization Inbreeding Lamps Low temperature off-site hybridization Plant breeding Plant Science Pollen Preservation soybean Soybeans ultra-low temperature preservation Beijing China China
ISSN:	1664-462X, 1664-462X
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Abstract	Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of soybean pollen at ultra-low temperature. Soybean flowers at the initially-open stage were collected at 6–10 a.m. during the fully-bloom stage of soybean plants and were dehydrated for 10 h and then frozen and stored at −196 or −80°C. In vitro culture experiments showed that the viability of preserved pollen remained as high as about 90%. The off-season (local site Heihe) and off-site (Beijing, after long-distance express delivery from Heihe) hybridization verification was conducted, and no significant difference in true hybrid rate was founded between the preserved pollen and the fresh pollen. The ultra-low temperature preservation technology for soybean pollen could break the spatiotemporal limit of soybean hybridization and facilitate the development of engineered soybean breeding.
AbstractList	Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of soybean pollen at ultra-low temperature. Soybean flowers at the initially-open stage were collected at 6-10 a.m. during the fully-bloom stage of soybean plants and were dehydrated for 10 h and then frozen and stored at -196 or -80°C. In vitro culture experiments showed that the viability of preserved pollen remained as high as about 90%. The off-season (local site Heihe) and off-site (Beijing, after long-distance express delivery from Heihe) hybridization verification was conducted, and no significant difference in true hybrid rate was founded between the preserved pollen and the fresh pollen. The ultra-low temperature preservation technology for soybean pollen could break the spatiotemporal limit of soybean hybridization and facilitate the development of engineered soybean breeding.Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of soybean pollen at ultra-low temperature. Soybean flowers at the initially-open stage were collected at 6-10 a.m. during the fully-bloom stage of soybean plants and were dehydrated for 10 h and then frozen and stored at -196 or -80°C. In vitro culture experiments showed that the viability of preserved pollen remained as high as about 90%. The off-season (local site Heihe) and off-site (Beijing, after long-distance express delivery from Heihe) hybridization verification was conducted, and no significant difference in true hybrid rate was founded between the preserved pollen and the fresh pollen. The ultra-low temperature preservation technology for soybean pollen could break the spatiotemporal limit of soybean hybridization and facilitate the development of engineered soybean breeding. Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of soybean pollen at ultra-low temperature. Soybean flowers at the initially-open stage were collected at 6–10 a.m. during the fully-bloom stage of soybean plants and were dehydrated for 10 h and then frozen and stored at −196 or −80°C. In vitro culture experiments showed that the viability of preserved pollen remained as high as about 90%. The off-season (local site Heihe) and off-site (Beijing, after long-distance express delivery from Heihe) hybridization verification was conducted, and no significant difference in true hybrid rate was founded between the preserved pollen and the fresh pollen. The ultra-low temperature preservation technology for soybean pollen could break the spatiotemporal limit of soybean hybridization and facilitate the development of engineered soybean breeding. Preserving viable pollen is of great interest to breeders to maintain desirable germplasm for future inbreeding. Ultra-low temperature preservation of pollen is an effective and safe way for long-term storage of plant germplasm resources. In this study, we improved methods for the preservation of soybean pollen at ultra-low temperature. Soybean flowers at the initially-open stage were collected at 6–10 a.m. during the fully-bloom stage of soybean plants and were dehydrated for 10 h and then frozen and stored at −196 or −80°C. In vitro culture experiments showed that the viability of preserved pollen remained as high as about 90%. The off-season (local site Heihe) and off-site (Beijing, after long-distance express delivery from Heihe) hybridization verification was conducted, and no significant difference in true hybrid rate was founded between the preserved pollen and the fresh pollen. The ultra-low temperature preservation technology for soybean pollen could break the spatiotemporal limit of soybean hybridization and facilitate the development of engineered soybean breeding.
Author	Liang, Xin Lu, Wencheng Jia, Hongchang Zhang, Jinmei Sun, Yanhui Yan, Hongrui Liu, Xianyuan Sapey, Enoch Zhang, Lixin Sun, Shi Han, Tianfu
AuthorAffiliation	2 Heihe Branch, Heilongjiang Academy of Agricultural Sciences , Heihe , China 1 Institute of Crop Sciences, Chinese Academy of Agricultural Sciences , Beijing , China 3 Council for Scientific and Industrial Research (CSIR)-Oil Palm Research Institute , Kade , Ghana
AuthorAffiliation_xml	– name: 2 Heihe Branch, Heilongjiang Academy of Agricultural Sciences , Heihe , China – name: 3 Council for Scientific and Industrial Research (CSIR)-Oil Palm Research Institute , Kade , Ghana – name: 1 Institute of Crop Sciences, Chinese Academy of Agricultural Sciences , Beijing , China
Author_xml	– sequence: 1 givenname: Hongchang surname: Jia fullname: Jia, Hongchang – sequence: 2 givenname: Xin surname: Liang fullname: Liang, Xin – sequence: 3 givenname: Lixin surname: Zhang fullname: Zhang, Lixin – sequence: 4 givenname: Jinmei surname: Zhang fullname: Zhang, Jinmei – sequence: 5 givenname: Enoch surname: Sapey fullname: Sapey, Enoch – sequence: 6 givenname: Xianyuan surname: Liu fullname: Liu, Xianyuan – sequence: 7 givenname: Yanhui surname: Sun fullname: Sun, Yanhui – sequence: 8 givenname: Shi surname: Sun fullname: Sun, Shi – sequence: 9 givenname: Hongrui surname: Yan fullname: Yan, Hongrui – sequence: 10 givenname: Wencheng surname: Lu fullname: Lu, Wencheng – sequence: 11 givenname: Tianfu surname: Han fullname: Han, Tianfu
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SubjectTerms	Agronomy Dehydration Flowers & plants germination rate Germplasm Humidity Hybridization Inbreeding Lamps Low temperature off-site hybridization Plant breeding Plant Science Pollen Preservation soybean Soybeans ultra-low temperature preservation
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Title	Improving Ultra-Low Temperature Preservation Technologies of Soybean Pollen for Off-Season and Off-Site Hybridization
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