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논문 기본 정보

자료유형
학술저널
저자정보
Gong Hui-Ling (School of Life Sciences and Engineering Lanzhou University of Technology) Dusengemungu Leonce (School of Life Sciences and Engineering Lanzhou University of Technology) Igiraneza Clement (School of Life Sciences and Engineering Lanzhou University of Technology) Rukundo Placide (Rwanda Agriculture and Animal Resources Development Board (RAB) Kinigi Station)
저널정보
한국식물생명공학회 Plant Biotechnology Reports Plant Biotechnology Reports 제15권 제4호
발행연도
2021.8
수록면
417 - 434 (18page)
DOI
10.1007/s11816-021-00689-y

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The potato plant is among the most important and well-documented crops globally due to its role in ensuring human food security. Dormancy and sprouting behaviors of the potato tuber are among the most studied phenomena of its developmental stages. Tuber dormancy and sprouting are complex processes influenced by potato genetic background and environment, but the specific genes and molecular mechanisms controlling tuber dormancy and sprouting are still ill-defined. To develop and use engineered plants in the future, we need to better understand the molecular regulation of various physiological processes such as dormancy, sprouting, tuber growth, and flowering. This review highlight that StZEP, StNCED, StCYP and StSUT4 genes are involved in dormancy. Moreover, Ipt gene plays a major role during the release of dormancy. Sprout growth is regulated by ARF1, STIAA, and STGA20x which controls the endogenous content of IAA and GA. However, the mode of action of the main regulatory genes should be determined. This review’s objective was to combine new insights into the most critical genes expressed during potato dormancy and sprouting. The information gathered revealed that organized genetic factors drive both the potato dormancy and sprouting process. The combined assessment of multiple genes is necessary to identify the best candidate genes for genetic engineering.

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