Identification and analysis of AP2/ERF gene family of Panax notoginseng and function of PnDREB84 gene / 药学学报

The AP2/ERF gene family is one of the largest transcription factor families in the plant kingdom, and plays an important role in response to biological and abiotic stresses, plant hormone responses, and plant growth and development. In this study, the AP2/ERF family of Panax notoginseng was identified by bioinformatics methods, and the physicochemical properties, structure, phylogenetic relationship, expression pattern and function of PnDREB4 gene of the family were analyzed. The results showed that 140 AP2/ERF family members were identified in P. notoginseng, which were divided into DREB, ERF, AP2, RAV and Sololit subgroups. The physicochemical properties and motifs of proteins were similar among the subgroups. There were 34 differentially expressed genes in the AP2/ERF family of Fusarium oxysporum infected P. notoginseng plants, and 19 genes were up-regulated. The expression level of PnDREB84 was up-regulated with the extension of Fusarium oxysporum infection time in the range of 0-96 h. The content of ABA and SA in P. notoginseng plants overexpressing PnDREB84 gene increased after 4 ℃ stress. The results showed that PnDREB84 gene plays a dual regulatory role in the process of biological stress and abiotic stress. PnDREB84 gene can be used as a potential molecular marker for the breeding of new varieties of P. notoginseng. The identification of AP2/ERF transcription factor and function analysis of PnDREB84 gene of P. notoginseng provided data support for the analysis of stress resistance mechanism of P. notoginseng and the breeding of new varieties.

Regulation of extracellular ATP onchlorophyll content and fluorescence characteristics of Angelica sinensis seedlings under drought and low temperature stress / 中国中药杂志

As an important signal molecule, extracellular ATP(eATP) can regulate many physiological and biochemical responses to plant stress. In this study, the regulation of extracellular ATP(eATP) on chlorophyll content and chlorophyll fluorescence parameters of Angelica sinensis seedlings were studied under drought and low temperature stress. The results showed that all the chlorophyll content, the actual photochemical efficiency [Y(Ⅱ)], the electron transfer rate(ETR), the photochemical quenching coefficient(qP and qL) of A. sinensis leaves were significantly decreased under drought and low temperature stress, respectively. At the same time, non-photochemical quenching(NPQ and qN) were also all significantly increased, respectively. The application of eATP alleviated the decrease of chlorophyll content, Y(Ⅱ), ETR, qP and qL of A. sinensis leaves under drought and low temperature stress, and eliminated the increase of qN and NPQ. The results indicated that eATP could effectively increase the open ratio of PSⅡ reaction centers, and improve the electron transfer rate and light energy conversion efficiency of PSⅡ of A. sinensis leaves under drought and low temperature stress. It is beneficial to enhance the chlorophyll synthesis and the adaptability of PSⅡ about A. sinensis seedlings to drought and low temperature stress.

Study of exogenous uniconazole on alleviating low-temperatuer stress of coix seedlings / 中国中药杂志

The aim of the study is to explore exogenous S3307 on alleviating low-temperature stress of coix seedlings. The coix cultivar, "No 5 Yiliao", was selected as the plant material, through nutrient solution cultivating in greenhouse, the effect of different S3307 concentrations(1, 3, 5, 7, 9 mg·L~(-1)) on coix seedlings traits and physiological indicators were explored under low-temperature stress. The results showed, under low-temperature 5 mg·L~(-1) S3307 could significantly increase coix seedlings stem diameter and biomass, which stem diameter and above-ground biomass, low-ground biomass separately were enhanced 11.90%, 13.59%, 10.99%. Leaf width and lateral root number separately were enhanced 7.63%, 37.52%. Meanwhile, addition of 5 mg·L~(-1) S3307 could significantly reduce relative conductivity and MDA, separately being reduced 23.33%, 17.42% compared to CKL. S3307 could also significantly increase soluble sugar and proline content, which leaf soluble sugar and proline content separately were enhanced 17.16%, 11.87%, which root soluble sugar and proline content separately were enhanced 20.00%, 33.42%. Additionally, S3307 could alleviate the cells destroy in ultra-structure level by improving cell membrane structure and chloroplast capsule layer structure. 5 mg·L~(-1) S3307 could enhance the low temperature tolerance of coix seedlings by regulating the growth and physiological indexes, and thus alleviate the damage caused by low-temperature to the coix seedlings.

Correlation between Expression of LEA2 Gene from Gastrodia elata and Cold Resistance / 中国药学杂志

OBJECTIVE: To find out the correlation between LEA2 gene from Gastrodia elata and cold resistance. METHODS: Two LEA2 cDNA sequences were obtained by screening the transcriptome of seeds from Gastrodia elata. Recombinant plasmid was obtained and imported into Escherichia coli. Then the transformed Escherichia coli(pET28a-LEA2) received low temperature treatment. RESULTS: GeLEA2-1 had a complete 477 bp ORF encoding 158 amino acids and its molecular weight was 17.3×103. In addition, GeLEA2-2 had a complete 942 bp ORF encoding 313 amino acids and its molecular weight was 34.85×103. Phylogenetic analysis showed the two GeLEA2 were highly homologous with LEA2 from Arabidopsis thaliana and Oryza sativa. The growth curves of E. coli BL21(DE3) showed that the strain expressing GeLEA2 tolerated low temperature more poorly than the control. CONCLUSION: Our work reveals that GeLEA2 could response to low temperature stress by negative regulation.

Cloning and expression analysis of WRKY5 gene in Dendrobium officinale / 中草药

Objective: In order to isolate and analysize the bioinformatics and expression pattern of DoWRKY5 gene from Dendrobium officinale. Methods: A WRKY gene was first obtained by transcriptome sequencing and reverse transcription-polymerase chain reaction (RT-PCR) from D. officinale and analyzed by bioinformatics tools. The tissue expression pattern and the low temperature stress, abscisic acid (ABA) stress, and sucrose stress responses were analyzed by qRT-PCR. Results: The cDNA sequence of DoWRKY5 gene was isolated, which was 1 336 bp in length, with an open reading frame (ORF) of 834 bp and an encoded polypeptide of 277 amino acid. The amino acid sequence contained a conserved WRKY domains and a zinc finger structures (C2H2), belonging to Group II of WRKY family. Expression analysis by qRT-PCR showed that DoWRKY5 was expressed in the roots, stems, and leaves of D. officinale, and the most abundant in leaves. The amount of DoWRKY5 expression were significantly increased under low temperature of 4℃ and different time. Moreover, the expression of DoWRKY5 could be induced by ABA and source. Conclusion: DoWRKY5 may be an important transcription factor to response cold stress and other abiotic stresses in D. officinale, which provides a foundation for further study of cold tolerance mechanism and cold-resistant breeding of D. officinale.

The Effect of Low Temperature Stress on Activity of Dehydrogenase in Spirulina(Arthrospira) / 微生物学通报

S_(3). The order of change range of the Q_(10) value of activity of dehydogenase is S_(1)