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Catalpa bungei
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Long non-coding RNAs (lncRNAs) have crucial roles in various biological regulatory processes. However, the study of lncRNAs is limited in woody plants. Catalpa bungei is a valuable ornamental tree with a long cultivation history in China, and a deeper understanding of the floral transition mechanism in C. bungei would be interesting from both economic and scientific perspectives.
16p
vihagrid
30-01-2023
8
3
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Floral transition plays an important role in development, and proper time is necessary to improve the value of valuable ornamental trees. The molecular mechanisms of floral transition remain unknown in perennial woody plants. “Bairihua” is a type of C. bungei that can undergo floral transition in the first planting year.
19p
vijeeni2711
24-07-2021
13
0
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Phytohormones are the key factors regulating vascular development in plants, and they are also involved in tension wood (TW) formation. Although the theory of hormone distribution in TW formation is widely supported, the effects of endogenous hormones on TW formation have not yet been assessed.
16p
vijeeni2711
30-06-2021
14
1
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Catalpa bungei is an important tree species used for timber in China and widely cultivated for economic and ornamental purposes. This is the first genetic map constructed in C. bungei and will be a useful tool for further genetic study, molecular marker-assisted breeding and genome assembly.
14p
viharuno2711
21-04-2020
32
1
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“Bairihua”, a variety of the Catalpa bungei, has a large amount of flowers and a long flowering period which make it an excellent material for flowering researches in trees. SPL is one of the hub genes that regulate both flowering transition and development.
14p
viuchiha2711
21-04-2020
4
1
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