Li-Wei Yang

Nanjing Forestry University, Nan-ching, Jiangsu Sheng, China

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Publications (2)0 Total impact

  • Li-Wei Yang, Ji-Sen Shi
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    ABSTRACT: To reveal the potential genetic mechanisms of indole-3-acetic acid (IAA) that regulate Chinese fir wood formation, cloned the differentially expressed genes via suppress subtractive hybridization (SSH) using the truncated stems treated by 0 and 3 mg IAA/g lanolin as the driver and tester, respectively. A total of 332 unigenes that were involved in cell organization and biosynthesis, developmental processes control, electron transport, stress response, and signal transduction. To further test the results from SSH, we selected those unigenes, whose putative encoding proteins showed significantly homologous with HIRA, PGY1, SMP1, TCT, TRN2, and ARF4, and analyzed their expressed specificity in the wood formative tissues and their response to the secondary developmental changes of vascular cambium stimulated by 0, 1, and 3 mg.IAA/g.lanolin treatment. The results showed that ClHIRA, ClPGY1, and ClARF4, which were specifically expressed in the adaxial zone of stem, were positively response to the activities of cell division and tracheid differentiation stimulated by exogenous IAA treatment. However, ClSMP1, ClTCTP1, and ClTRN2, which were mainly expressed in the abaxial zones of stems, showed negative correlation with the treated levels of exogenous IAA and activities of vascular cambium secondary development at the transcriptional level. This result showed that the differential response of developmental regulatory genes located in different vascular tissues to the level changes of edogenous IAA in stems is likely to be an important molecular mechanism of auxin regulating wood formation.
    Hereditas (Beijing) 04/2012; 34(4):472-84.
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    ABSTRACT: Wood is an important raw material for the global industry with rapidly increasing demand. To isolate the differentially expressed genes in xylogenesis of Chinese fir [Cunninghamia lanceolata (Lamb.) Hook], a forward subtractive cDNA library was constructed using suppression subtractive hybridization (SSH) method, which was performed using the cDNA from the mutant Dugansha clone as the tester and the cDNA from the normal Jurong 0 clone as the driver. Six hundred and eighteen clones were obtained. Recombinants were identified using PCR with universal T7 and SP6 primers and using EcoR digestion. To further eliminate false positive, dot hybridization was used with four DIG-labeled probes (FSP, RSP, UTP, and UDP). Real-time PCR was performed to confirm the results. A total of 260 unique ESTs were obtained, 60% of the ESTs exhibiting homologies with proteins of known function fell into 4 major classes: metabolism, cell wall biogenesis and remodeling, signal transduction and stress. The systematic analysis of genes involved in wood formation in Chinese fir provides valuable insights into the molecular mechanisms involved in xylem differentiation, is important resources for forest research directed toward understanding the genetic control of wood formation and future endeavors to modify wood and fiber properties for industrial use.
    Hereditas (Beijing) 05/2007; 29(4):483-9.