Tianhong Huang scite author profile

Non-heading Chinese cabbage (Brassica rapa ssp. chinensis Makino) is an important vegetable member of Brassica rapa crops. It exhibits a typical sporophytic self-incompatibility (SI) system and is an ideal model plant to explore the mechanism of SI. Gene expression research are frequently used to unravel the complex genetic mechanism and in such studies appropriate reference selection is vital. Validation of reference genes have neither been conducted in Brassica rapa flowers nor in SI trait. In this study, 13 candidate reference genes were selected and examined systematically in 96 non-heading Chinese cabbage flower samples that represent four strategic groups in compatible and self-incompatible lines of non-heading Chinese cabbage. Two RT-qPCR analysis software, geNorm and NormFinder, were used to evaluate the expression stability of these genes systematically. Results revealed that best-ranked references genes should be selected according to specific sample subsets. DNAJ, UKN1, and PP2A were identified as the most stable reference genes among all samples. Moreover, our research further revealed that the widely used reference genes, CYP and ACP, were the least suitable reference genes in most non-heading Chinese cabbage flower sample sets. To further validate the suitability of the reference genes identified in this study, the expression level of SRK and Exo70A1 genes which play important roles in regulating interaction between pollen and stigma were studied. Our study presented the first systematic study of reference gene(s) selection for SI study and provided guidelines to obtain more accurate RT-qPCR results in non-heading Chinese cabbage.

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The complete mitochondrial genome of the Sorex araneus

Huang

Dang

et al. 2015

Mitochondrial DNA Part A

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The Sorex araneus (common shrew), a member of the Soricidae family, is the most common shrew throughout Northern Europe. The region includes Great Britain, but excludes Ireland. Herein, we first publish the complete mitochondrial genome of S. araneus. The mitogenome is 16 887 bp in length, which contains 24 tRNA genes, 13 protein-coding genes, 2 rRNA genes and a control region. The overall GC content is 38.28%, which is lower than AT. To verify the accuracy and utility of new determined mitogenome sequences, a species phylogenetic tree is constructed based on the complete mitogenomes of the species and other 10 close species. The current data provide important resources for the research of S. araneus mitochondrial evolution and the species identification.

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Implementing targeted region capture sequencing for the clinical detection of Alagille syndrome: An efficient and cost-effective method

Huang

Yang

Dang

et al. 2017

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Alagille syndrome (AGS) is a highly variable, autosomal dominant disease that affects multiple structures including the liver, heart, eyes, bones and face. Targeted region capture sequencing focuses on a panel of known pathogenic genes and provides a rapid, cost‑effective and accurate method for molecular diagnosis. In a Chinese family, this method was used on the proband and Sanger sequencing was applied to validate the candidate mutation. A de novo heterozygous mutation (c.3254_3255insT p.Leu1085PhefsX24) of the jagged 1 gene was identified as the potential disease‑causing gene mutation. In conclusion, the present study suggested that target region capture sequencing is an efficient, reliable and accurate approach for the clinical diagnosis of AGS. Furthermore, these results expand on the understanding of the pathogenesis of AGS.

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Tianhong Huang

Identification and Validation of Reference Genes for RT-qPCR Analysis in Non-Heading Chinese Cabbage Flowers

The complete mitochondrial genome of the Sorex araneus

Implementing targeted region capture sequencing for the clinical detection of Alagille syndrome: An efficient and cost-effective method

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