Journal
FORESTS
Volume 13, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/f13050806
Keywords
Populus ussuriensis; plant regeneration; shoot organogenesis; root
Categories
Funding
- College Students Innovative Entrepreneurial Training Plan Program [202110225018]
- National Natural Science Foundation of China [31971671]
- Fundamental Research Funds for the Central Universities of China [2572018CL04]
- Innovation Project of State Key Laboratory of Tree Genetics and Breeding [2020A02]
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The present study establishes a rapid and efficient shoot regeneration method from root explants in Populus ussuriensis using plant growth regulators. The method significantly increases the number and efficiency of induced shoot buds, and the entire regeneration process is completed in a short time.
Populus ussuriensis is an important tree species with high economic and ecologic values. However, traditional sexual propagation is time-consuming and inefficient, challenging afforestation and wood production using P. ussuriensis, and requires a rapid and efficient regeneration system. The present study established a rapid, efficient, and stable shoot regeneration method from root explants in P. ussuriensis using several plant growth regulators. Most shoot buds (15.2 per explant) were induced at high efficiency under WPM medium supplemented with 221.98 mu M 6-BA, 147.61 mu M IBA, and 4.54 mu M TDZ within two weeks. The shoot buds were further multiplicated and elongated under WPM medium supplemented with 221.98 mu M 6-BA, 147.61 mu M IBA, and 57.74 mu M GA3 for four weeks. The average number and efficiency of elongation of multiplication and elongation for induced shoot buds were 75.2 and 78%, respectively. All the shoots were rooted within a week and none of them showed abnormality in rooting. The time spent for the entire regeneration of this direct shoot organogenesis was seven weeks, much shorter than conventional indirect organogenesis with the callus induction phase, and no abnormal growth was observed. This novel regeneration system will not only promote the massive propagation, but also accelerate the genetic engineering studies for trait improvement of P. ussuriensis species.
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