植物内生真菌次生代谢产物对草地早熟禾抗旱能力的影响

[目的]探讨3种植物内生真菌次生代谢产物对草地早熟禾抗旱胁迫下抗性酶系及生理生化指标的影响。[方法]均匀喷施植物内生真菌次生代谢产物1 d后,采用高渗溶液胁迫法,喷施100 mL 20%聚乙二醇,干旱胁迫7 d,测定相关生理指标。[结果]喷施代谢产物D后,相对含水量(RWC)比CK高10.7%,CAT和POD活性均为CK的1.98倍,细胞膜相对透性比CK低48.78%,MDA含量比CK低26.45%。喷施代谢产物S后,SOD活性是CK的2.01倍,SS含量是CK的3.72倍,SP含量比CK高23.80%。喷施代谢产物对叶绿素含量影响不显著。[结论]为开发安全、绿色的微生物制剂奠定理论基础。

Environmental Stresses and Redox Status of Ascorbate

To investigate the effects of environmental stresses on ascorbic acid content and its redox status, the effects of freezing and drought on ascorbate and dehydro-ascorbate content and activities of four enzymes involved in the ascorbate-glutathione cycle in some conifers were studied. The results showed that both freezing and drought induced the decrease in ascorbate content and the increase in dehydro-ascorbate content. The activities of ascorbate peroxidase (APX) and monodehydro-ascorbate reductase (MDAR) were decreased by freezing stress. At the beginning of exposure to air, water loss from detached needles induced the increase in the activities of APX and MDAR. Further water loss turned to decrease the APX and MDAR activities. The activities of dehydro-ascorbate reductase (DHAR) and glutathione reductase (GR) were not sensitive to changes in temperature and water content of the needles. It is concluded that moderate temperature or water stresses may induce the acclimation and increase in the ability of the H2O2 scavenging system, while strong stresses decrease the ability and induce injury of plant tissues. Correlation between ascorbate content and activities of related enzymes and cold tolerance of conifers were also reported.

Influences of Na_2CO_3 Stress on Physiological Metabolisms of Different Alkali Tolerant Varieties of Stevia rebaudiana

[Objective] The research aimed to reveal physiological mechanisms of alkali tolerances of different Stevia rebaudiana varieties under alkali stress.[Method] By using matrix culture method,the influences of Na2CO3 on chlorophyll content,malondialdehyde（MDA）,superoxide dismutase（SOD）,peroxidase（POD） and Proline（Pro） content of leaves from different alkali tolerance varieties of S.rebaudiana [No.2 Shoutian（relative alkali tolerance variety） and No.4 Zhongshan（alkali sensitivity variety）] were studied.[Result] 1.2 g/L of Na2CO3 stress made that the chlorophyll contents of leaves from No.2 Shoutian and No.4 Zhongshan seedlings both decreased in different degrees.Moreover,MDA content of No.4 Zhongshan was higher than control during the whole stress period,and the largest increase amplitude was 43.2%.MDA content of No.2 Shoutian was lower than control in early and latter periods of stress,and increased the maximum on the 14th day of alkali stress,which was 24.4% higher than control.SOD activities of No.2 Shoutian and No.4 Zhongshan both showed a trend of first increasing and declining then in the alkali stress period,but the increasing extent of SOD activity in No.2 Shoutian was higher than that in No.4 Zhongshan.In latter period of Na2CO3 stress,SOD activity of No.2 Shoutian declined,but POD activity was higher than that of No.4 Zhongshan.It illustrated that POD had stronger scavenging capability of active oxygen.Pro contents of No.2 Shoutian and No.4 Zhongshan were higher than control in the stress period.It showed that the osmoregulation of Pro might not be key regulatory factor of alkali tolerance difference of the two S.rebaudiana varieties.[Conclusion] The research not only provided theoretical basis for further breeding new salt tolerance variety of S.rebaudiana,but also had important significance for improving utilized ratio of kaline soil and growing environment for mudflat in China.

Effects of Cadmium Stress on Key Enzymes Involved in Nitrogen Metabolism and Nitrogen,Phosphorus, Potassium Accumulation of Different Varieties of Rice

In this study, the pot experiment was used to explore the differences of activity of key enzymes involved in N metabolism and NPK accumulation under Cd stress during the til iering stage of differen varieties of rice. The results showed that：Cd stress could increase the NPK concentration of different rice type in the til ering stage, while Shen-Liangyou 5867,Yongyou 5550 and Wu-Yunjing 27 showed the highest amplification respectively. Morever, Cd stress can also contribute to the ac-tivity of NR,GS,GOGAT increasing.A s for NR,the Cd stress significantly contribute to NR activity increasing of Huang-Huazhan and Yongyou 538 but is not significant for Wu-Yunjing 27, Shen-Liangyou 5867 and Yongyou 5550, however, the difference among them is not obvious.However, for the activity of GS , Cd stress promote the GS activity. Huang-Huazhan and Wu-Yunjing 27 with low activity in Cd normal level are the most sensitive. Meanwhile the difference between two treatment is the most significant. To the contrary, restrain the GS activity of Shen-Liangyou 5867, Yongy-ou 5550 and the difference is not significant. And under Cd stress, either difference reached significant in GS activity. Cd stress also improve the activity of GOGAT, Wu-Yunjing 27 showed the highest inprovement which showed the lowest GOGAT activity under Cd normal level. Cd stress on rice growth and development of ad-verse, make its lower seed setting rate, 1 000 grain weight decreased, resulting in different degrees of reduction of output of rice.

Effect of Water Deficit Stress on Isotope ^15N Uptake and Nitrogen Metabolism of Newhall Orange and Yamasitaka Mandarin Seedling

Soil water content significantly influenced uptake and distribution of ^15N in both Newhall and Yamasitaka. The content of ^15N uptake in treated plants was less than that in controlled plants, under 20% soil water content, ^15N was only taken up 16.02% by Newhall and 10.11% by Yamasitaka. The most ^15N was detained in root and old shoots under water stress. Protein concentration in two cultivars significantly decreased by water deficit stress, protein content of Newhall and Yamasitaka in controlled plants was 16.29 mg/g fresh weight and 15.89 mg/g fresh weight, but at 20% of water content, these were 9.60 mg/g fresh weight and 9.02 mg/g fresh weight. Water stress increased concentration of NH3-NH4^＋, Arginine and Proline. Compared with control plants, concentrations of NH3-NH4^＋ in both Newhall and Yamasitaka at 20% water content treatment increased 5.83 fold and 5.71 fold, Arginine increased 197% and 205%, and Proline increased 112% and 132%.

Identification and Analysis of SSRs Derived from Protein-coding Genes in Grape

SSR(Simple Sequence Repeats), also known as microsatellites or STRs(short tandem repeats), are a type of PCRbased markers. So far, the version of grape genome has been updated constantly, but SSRs derived from protein-coding genes in grape have not yet been identified. In this study, 4 337 SSR-containing genes were found among 29 971 protein-coding genes in grape(Vitis vinifera L.), and 5 384 SSRs were found. There were 96 types of repeat motifs in SSRs derived from protein-coding genes in grape, and the most frequently occurring repeat motif was A/T. Among various repeat motifs in dinucleotide SSRs, the most frequently occurring repeat motif was AG/CT. Moreover, many genes exhibited codon usage bias, which was affected by the mutation pressure. GO annotation, KEGG annotation and domain analysis of these genes were performed.Several genes were found to be closely related to the synthesis and metabolism of secondary metabolites, synthesis of flavones or anthocyanins, development and morphology of plant organs, and tolerance to biotic or abiotic stresses, including transcription factors in MYB, Hsf, NBS and TPC families. This study laid a solid foundation for the development of SSR markers and research of QTLs controlling complex agronomic traits in grape.

Salt Stress Effects on Germination, Plant Growth and Accumulation of Metabolites in Five Leguminous Plants

The investigation was conducted to determine physiological criteria of early selection for salt tolerant leguminous plants. Plants were subjected to 5 levels of salt stress at the roots （0, 50, 100,150 and 200 mM NaCI）. Results showed that sodium chloride had an underrating effect on growth of stems and seed germination of the species studied. The germination rates of seeds of Glycine max and Phaseolus vulgaris （sensitive glyeophytes） were affected from 3 g/L of NaCl, with critical thresholds at 9 and 12 g/L respectively. In contrast, critical thresholds with Mucunapoggei （facultative halophyte）, Vigna unguiculata （moderately tolerant glycophyte） and P. adenanthus （natural halophyte） was found to be above 21 g/L. The reduction of stems growth rate were not significant in P. adenanthus whereas in M. poggei and V. unguiculata this inhibition was observed just when nutritive solutions were enriched with 200 mM. The lipid contents were reduced in all the species under salt stress, whereas proteins and proline contents in the leaves were substantially increased in tolerant species （M. poggei, P. adenanthus and V. unguiculata）. In contrast, proteins and leaf proline contents were negatively affected by salt concentration to G. max and P. vulgaris. Seed germination, proteins and proline could be used as physiological criteria of early selection for salt tolerant leguminous plants.

细胞自噬中的新蛋白质机器的鉴定和研究

细胞自噬是进化保守的,基于溶酶体的胞内降解途径,对维持细胞的稳态平衡有重要作用。自噬参与生物体发育、免疫反应、代谢调节、细胞凋亡和衰老等多种过程。自噬异常与神经退行性疾病、肿瘤等的发生密切相关。自噬是当今生命科学领域的研究热点之一。1992年大隅良典实验室利用酵母遗传筛选鉴定了15个自噬核心基因,也因此获得2016年度诺贝尔生理学或医学奖。当前自噬领域研究的重点集中在酵母以及通过酵母遗传筛选获得的核心蛋白质机器。然而单细胞酵母、单一诱导条件为出发点的筛选和研究具有明显的局限性。本文将从自噬过程的细胞、组织和发育阶段的特异性;多细胞生物中具有重要生理意义的自噬新蛋白质机器和新通路;自噬核心蛋白质机器的组装、蛋白质复合体的形成及多种蛋白质的翻译后修饰等高层调控体系;自噬晚期事件以及核心蛋白质机器;细胞面对不同的代谢胁迫条件会启动的不同的自噬通路等几个方面探讨自噬领域的研究方向和突破点,并讨论自噬领域研究的策略和方法。

Transcriptome sequencing and annotation of the halophytic microalga Dunaliella salina

The unicellular green alga Dunaliella salina is well adapted to salt stress and contains compounds（including β-carotene and vitamins） with potential commercial value.A large transcriptome database of D.salina during the adjustment, exponential and stationary growth phases was generated using a high throughput sequencing platform.We characterized the metabolic processes in D.salina with a focus on valuable metabolites, with the aim of manipulating D.salina to achieve greater economic value in large-scale production through a bioengineering strategy.Gene expression profiles under salt stress verified using quantitative polymerase chain reaction（qPCR） implied that salt can regulate the expression of key genes.This study generated a substantial fraction of D.salina transcriptional sequences for the entire growth cycle, providing a basis for the discovery of novel genes.This first full-scale transcriptome study of D.salina establishes a foundation for further comparative genomic studies.

JA-mediated transcriptional regulation of secondary metabolism in medicinal plants

Plants produce a wide spectrum of secondary metabolites that play critical roles in plant-environment interactions and against biotic and abiotic stresses. Moreover, many secondary metabolites have pharmaceu- tical efficacy for a wide range of diseases （cancer, malaria, etc.）. Controlled transcription of biosynthetic genes is one of the major mechanisms regulating sec- ondary metabolism in plants. Several transcription factor families such as MYC, MYB, WRKY and AP2/ERF have been found to be involved in the regulation of secondary metabolism in different medicinal plants. In addition, the biosynthesis and proper accumulation of secondary metabolites are also induced by signaling molecule jasmonic acid （JA）. This review provides an insight into JA signaling pathway and JA-mediated transcriptional regu- lation of secondary metabolism （vinblastine, nicotine, artemisinin, taxol and ginsenoside） in a range of medicinal plant species.