Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees

Transgenic technology is increasingly used in forest-tree breeding to overcome the disadvantages of traditional breeding methods, such as a long breeding cycle, complex cultivation environment, and complicated procedures. By introducing exogenous DNA, genes tightly related or contributed to ideal tr...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Yiyi Yin, Chun Wang, Dandan Xiao, Yanting Liang, Yanwei Wang
Formato: article
Lenguaje:EN
Publicado: Frontiers Media S.A. 2021
Materias:
Acceso en línea:https://doaj.org/article/8c39e480bc0e46b5a39d4f482e6b4862
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:8c39e480bc0e46b5a39d4f482e6b4862
record_format dspace
spelling oai:doaj.org-article:8c39e480bc0e46b5a39d4f482e6b48622021-12-01T18:06:48ZAdvances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees1664-462X10.3389/fpls.2021.786328https://doaj.org/article/8c39e480bc0e46b5a39d4f482e6b48622021-11-01T00:00:00Zhttps://www.frontiersin.org/articles/10.3389/fpls.2021.786328/fullhttps://doaj.org/toc/1664-462XTransgenic technology is increasingly used in forest-tree breeding to overcome the disadvantages of traditional breeding methods, such as a long breeding cycle, complex cultivation environment, and complicated procedures. By introducing exogenous DNA, genes tightly related or contributed to ideal traits—including insect, disease, and herbicide resistance—were transferred into diverse forest trees, and genetically modified (GM) trees including poplars were cultivated. It is beneficial to develop new varieties of GM trees of high quality and promote the genetic improvement of forests. However, the low transformation efficiency has hampered the cultivation of GM trees and the identification of the molecular genetic mechanism in forest trees compared to annual herbaceous plants such as Oryza sativa. In this study, we reviewed advances in transgenic technology of forest trees, including the principles, advantages and disadvantages of diverse genetic transformation methods, and their application for trait improvement. The review provides insight into the establishment and improvement of genetic transformation systems for forest tree species. Challenges and perspectives pertaining to the genetic transformation of forest trees are also discussed.Yiyi YinYiyi YinYiyi YinChun WangChun WangChun WangDandan XiaoDandan XiaoDandan XiaoYanting LiangYanting LiangYanting LiangYanwei WangYanwei WangYanwei WangFrontiers Media S.A.articleforest treestransgenic technologygenetically modified treestrait improvementapplicationPlant cultureSB1-1110ENFrontiers in Plant Science, Vol 12 (2021)
institution DOAJ
collection DOAJ
language EN
topic forest trees
transgenic technology
genetically modified trees
trait improvement
application
Plant culture
SB1-1110
spellingShingle forest trees
transgenic technology
genetically modified trees
trait improvement
application
Plant culture
SB1-1110
Yiyi Yin
Yiyi Yin
Yiyi Yin
Chun Wang
Chun Wang
Chun Wang
Dandan Xiao
Dandan Xiao
Dandan Xiao
Yanting Liang
Yanting Liang
Yanting Liang
Yanwei Wang
Yanwei Wang
Yanwei Wang
Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
description Transgenic technology is increasingly used in forest-tree breeding to overcome the disadvantages of traditional breeding methods, such as a long breeding cycle, complex cultivation environment, and complicated procedures. By introducing exogenous DNA, genes tightly related or contributed to ideal traits—including insect, disease, and herbicide resistance—were transferred into diverse forest trees, and genetically modified (GM) trees including poplars were cultivated. It is beneficial to develop new varieties of GM trees of high quality and promote the genetic improvement of forests. However, the low transformation efficiency has hampered the cultivation of GM trees and the identification of the molecular genetic mechanism in forest trees compared to annual herbaceous plants such as Oryza sativa. In this study, we reviewed advances in transgenic technology of forest trees, including the principles, advantages and disadvantages of diverse genetic transformation methods, and their application for trait improvement. The review provides insight into the establishment and improvement of genetic transformation systems for forest tree species. Challenges and perspectives pertaining to the genetic transformation of forest trees are also discussed.
format article
author Yiyi Yin
Yiyi Yin
Yiyi Yin
Chun Wang
Chun Wang
Chun Wang
Dandan Xiao
Dandan Xiao
Dandan Xiao
Yanting Liang
Yanting Liang
Yanting Liang
Yanwei Wang
Yanwei Wang
Yanwei Wang
author_facet Yiyi Yin
Yiyi Yin
Yiyi Yin
Chun Wang
Chun Wang
Chun Wang
Dandan Xiao
Dandan Xiao
Dandan Xiao
Yanting Liang
Yanting Liang
Yanting Liang
Yanwei Wang
Yanwei Wang
Yanwei Wang
author_sort Yiyi Yin
title Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
title_short Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
title_full Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
title_fullStr Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
title_full_unstemmed Advances and Perspectives of Transgenic Technology and Biotechnological Application in Forest Trees
title_sort advances and perspectives of transgenic technology and biotechnological application in forest trees
publisher Frontiers Media S.A.
publishDate 2021
url https://doaj.org/article/8c39e480bc0e46b5a39d4f482e6b4862
work_keys_str_mv AT yiyiyin advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yiyiyin advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yiyiyin advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT chunwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT chunwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT chunwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT dandanxiao advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT dandanxiao advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT dandanxiao advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yantingliang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yantingliang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yantingliang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yanweiwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yanweiwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
AT yanweiwang advancesandperspectivesoftransgenictechnologyandbiotechnologicalapplicationinforesttrees
_version_ 1718404762393640960