Changbing Huang scite author profile

Changbing Huang

3Publications

19Citation Statements Received

69Citation Statements Given

How they've been cited

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124

Affiliations

Suzhou Polytechnic Institute of Agriculture, Nanjing Agricultural University, Nanjing Forestry University

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The expression of floral organ identity genes in contrasting water lily cultivars

et al. 2011

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The floral organs of typical eudicots such as Arabidopsis thaliana are arranged in four characteristic whorls, namely the sepal, petal, stamen and carpel, and the "ABC" floral organ identity model has been based on this arrangement. However, the floral organs in most basal angiosperms are spirally arranged with a gradual transition from the inside to outside, and an alternative model referred to as "fading borders" was developed to take account of this. The flower morphology of the water lily was tested against the "fading borders" model by determining the expression profile of the six primary floral organ identity genes AP2, AGL6, AP3, PI, AG and SEP1 in two cultivars showing contrasting floral morphology. In addition, to get accurate floatation of the genes expression level from outer to inner, we divided the floral organs into eight whorls according to morphological features. All these genes were expressed throughout all whorls of the flower, but their expression level changed gradually from the outside of the flower to its inside. This pattern was consistent with the "fading borders" model.

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Genome-wide identification, characterization and expression of HSP 20 gene family in dove

Hóu¹,

Huang³

2022

Front. Genet.

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Davidia involucrata is a significant living fossil with high abiotic stress tolerance. Although heat shock protein 20 (HSP20) has already been linked to heat stress, nothing is known about HSP20 family protein activities in D. involucrata. The functional dynamics of the D. involucrata HSP20 (DiHSP20) gene family were identified and characterized using a thorough genome-wide investigation. From the genome of D. involucrata, a total of 42 HSP20 genes were identified, which are distributed across 16 chromosomes. The DiHSP20 proteins were grouped into seven separate subfamilies by our phylogenetic analysis, which was validated by the conserved motif composition and gene structure studies. Segmental duplication events were shown to play a crucial role in the expansion of the DiHSP20 gene family. Synteny analysis revealed that 19 DiHSP20 genes of D. involucrata shared a syntenic connection with Arabidopsis genes, 39 with C. acuminata genes, and just 6 with O. sativa genes. Additionally, heat stress differently enhanced the expression levels of D. involucrata HSP20 genes. After 1 hour of heat treatment, the expression levels of most DiHSP20 genes, particularly DiHSP20-7, DiHSP20-29, DiHSP20-30, DiHSP20-32, and DiHSP20-34, were dramatically increased, suggestted that they might be employed as heat tolerance candidate genes. Overall, these findings add to our knowledge of the HSP20 family genes and provide helpful information for breeding heat stress resistance in D. involucrata.

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Identification and differential expression of cold-stress-responsive microRNAs in cold-tolerant and -susceptible Hemerocallis fulva varieties

Huang

Cheng

Zhang

et al. 2022

New Zealand Journal of Crop and Horticultural Science

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Changbing Huang

The expression of floral organ identity genes in contrasting water lily cultivars

Genome-wide identification, characterization and expression of HSP 20 gene family in dove

Identification and differential expression of cold-stress-responsive microRNAs in cold-tolerant and -susceptible Hemerocallis fulva varieties

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