Ultra‐high α‐linolenic acid accumulating developmental defective embryo was rescued by lysophosphatidic acid acyltransferase 2

For decades, genetic engineering approaches to produce unusual fatty acids (UFAs) in crops has reached a bottleneck, including reduced seed oil production and seed vigor. Currently, plant models in the field of research are primarily used to investigate defects in oil production and seedling development, while the role of UFAs in embryonic developmental defects remains unknown. In this study, we developed a transgenic Arabidopsis plant model, in which the embryo exhibits severely wrinkled appearance owing to α‐linolenic acid (ALA) accumulation. RNA‐sequencing analysis in the defective embryo suggested that brassinosteroid synthesis, FA synthesis and photosynthesis were inhibited, while FA degradation, endoplasmic reticulum stress and oxidative stress were activated. Lipidomics analysis showed that ultra‐accumulated ALA is released from phosphatidylcholine as a free FA in cells, inducing severe endoplasmic reticulum and oxidative stress. Furthermore, we identified that overexpression of lysophosphatidic acid acyltransferase 2 rescued the defective phenotype. In the rescue line, the pool capacity of the Kennedy pathway was increased, and the esterification of ALA indirectly to triacylglycerol was enhanced to avoid stress. This study provides a plant model that aids in understanding the molecular mechanism of embryonic developmental defects and generates strategies to produce higher levels of UFAs.     

Overexpression of the persimmon abscisic acid β‐glucosidase gene (DkBG1) alters fruit ripening in transgenic tomato

β‐Glucosidases (BG) are present in many plant tissues. Among these, abscisic acid (ABA) β‐glucosidases are thought to take part in the adjustment of cellular ABA levels, however the role of ABA‐BG in fruits is still unclear. In this study, through RNA‐seq analysis of persimmon fruit, 10 full‐length DkBG genes were isolated and were all found to be expressed. In particular, DkBG1 was highly expressed in persimmon fruits with a maximum expression 95 days after full bloom (DAFD). We verified that, in vitro, DkBG1 protein can hydrolyze ABA‐glucose ester (ABA‐GE) to release free ABA. Compared with wild‐type, tomato plants that overexpressed DkBG1 significantly upregulated the expression of ABA receptor PYL3/7 genes and showed typical symptoms of ABA hypersensitivity in fruits. DkBG1 overexpression (DkBG1‐OE) accelerated fruit ripening onset by 3–4 days by increasing ABA levels at the pre‐breaker stage and induced early ethylene release compared with wild‐type fruits. DkBG1‐OE altered the expression of ripening regulator NON‐RIPENING (NOR) and its target genes; this in turn altered fruit quality traits such as coloration. Our results demonstrated that DkBG1 plays an important role in fruit ripening and quality by adjusting ABA levels via hydrolysis of ABA‐GE.     

Potential role of insulin on the pathogenesis of depression

The regulation of insulin on depression and depression‐like behaviour has been widely reported. Insulin and activation of its receptor can promote learning and memory, affect the hypothalamic‐pituitary‐adrenal axis (HPA) balance, regulate the secretion of neurotrophic factors and neurotransmitters, interact with gastrointestinal microbiome, exert neuroprotective effects and have an impact on depression. However, the role of insulin on depression remains largely unclear. Therefore, in this review, we summarized the potential role of insulin on depression. It may provide new insight for clarifying role of insulin on the pathogenesis of depression.     

Rapid anti‐depressant‐like effects of ketamine and other candidates: Molecular and cellular mechanisms

Major depressive disorder takes at least 3 weeks for clinical anti‐depressants, such as serotonin selective reuptake inhibitors, to take effect, and only one‐third of patients remit. Ketamine, a kind of anaesthetic, can alleviate symptoms of major depressive disorder patients in a short time and is reported to be effective to treatment‐resistant depression patients. The rapid and strong anti‐depressant‐like effects of ketamine cause wide concern. In addition to ketamine, caloric restriction and sleep deprivation also elicit similar rapid anti‐depressant‐like effects. However, mechanisms about the rapid anti‐depressant‐like effects remain unclear. Elucidating the mechanisms of rapid anti‐depressant effects is the key to finding new therapeutic targets and developing therapeutic patterns. Therefore, in this review we summarize potential molecular and cellular mechanisms of rapid anti‐depressant‐like effects based on the pre‐clinical and clinical evidence, trying to provide new insight into future therapy.     

调蓄河湖群菹草(Potamogeton crispus L.)功能性状特征及其与环境因子的关系

调水工程引起的多环境因子关联变化对沉水植物群落的影响机制有待深入探讨。以南水北调东线工程调蓄河湖群中菹草种群为研究对象,分析了京杭运河(YH)、高邮湖(GY)、洪泽湖(HZ)、骆马湖(LM)、南四湖上级湖(NS1)、南四湖下级湖(NS2)和东平湖(DP)7个调蓄河湖中菹草个体功能性状特征及其与环境因子间的关系。结果表明:(1)除高锰酸盐指数(COD_(Mn))、浊度(Tur)和底泥有机质含量(S_o)外,总氮(TN)、硝氮(NO_3-N)、氨氮(NH_4-N)、总磷(TP)、正磷酸盐(PO_4-P)、硅酸盐(SiO_4-Si)、叶绿素a(Chla)、总溶解性固体(TDS)、透明度(SD)、消光系数(K)、水温(T)、电导率(Cond)、酸碱度(pH)、溶解氧(DO)和底泥含水率(S_w)在河湖间差异达到了极显著水平;(2)菹草株高、茎分支数、茎节数、茎节长、茎直径、相对茎长、叶片数、叶厚、叶长、叶宽、叶面积、比叶面积、株重、茎重、叶重、茎叶比、茎干物质比、叶干物质比在河湖间差异极显著;(3)河湖群内菹草种群18个功能性状中,按变异系数从小到大依次为:叶宽、茎直径、叶长、茎干物质比、叶干物质比、叶面积、株高、茎节长、相对茎长、茎叶比、叶厚、茎节数、茎重、叶片数、株重、比叶面积、叶重、茎分支数;7个调蓄河湖间,按照所有性状变异系数平均值从大到小排序依次为:南四湖下级湖、洪泽湖和京杭运河、高邮湖、东平湖、南四湖上级湖、骆马湖;(4)环境因子共解释了功能性状方差变异的49.43%;叶性状主要受营养因子(TN、NO_3-N、SiO_4-Si)影响;茎性状与光照因子(Chla和SD)密切相关;底泥因子(S_o)对茎叶生物量分配起主要作用。     

围封对天山高寒草原4种植物叶片和土壤化学计量学特征的影响

以中国科学院巴音布鲁克草原生态系统研究站长期围栏内外的羊茅(Festuca ovina)、天山赖草(Leymus tiansecalinus)、二裂委陵菜(Potentilla bifurca)和鹅绒委陵菜(Potentilla anserine)4种植物叶片和土壤为研究对象,分析了放牧与围封对植物叶片和土壤C、N、P的化学计量特征的影响。结果表明,围封样地土壤养分浓度整体高于放牧样地(P0.05),全氮(TN)浓度除外。围封显著增加羊茅叶片C、N浓度(P0.05),对P浓度影响不显著;围封显著增加鹅绒委陵菜叶片的C浓度,但是显著降低叶片的N和P浓度(P0.05),围封对天山赖草和二裂委陵菜养分含量影响不显著。围封显著增加鹅绒委陵菜C∶N和C∶P(P0.05);围封显著降低羊茅C∶N、C∶P和增加N∶P(P0.05);围封显著降低二裂委陵菜C∶N(P0.05),对天山赖草的化学计量特征影响不显著。不同植物对围封的响应不同,意味着长期围封可能会改变天山高寒草原生态系统的结构。围封降低优势种(羊茅)的固碳能力,增加退化期出现的代表性植物(鹅绒委陵菜)的固碳能力,表明在长期围封下植物凋落物中的杂类草(鹅绒委陵菜)可能更多的为土壤提供碳来源,也能促进优势禾本科物种的氮含量和碳含量的增加。     

重点生态功能区农户的生计风险多维感知及影响因素——以甘南黄河水源补给区为例

重点生态功能区承担着保护与修复生态环境、提供生态产品的重要任务,农户作为该区最重要的生态保护主体,面临着多重风险的冲击,其对生计风险的多维感知不仅会影响其生产行为决策,更关系到重点生态功能区主体功能的发挥,因此,急需准确地了解农户的生计风险多维感知及影响因素,为制定有效的生计风险防范体系提供借鉴。以甘南黄河水源补给区为例,基于多维度生计风险感知测量框架,利用入户调查数据,分析了农户的生计风险感知,并采用经济计量模型分析了影响农户生计风险感知的关键因素。结果表明:①甘南黄河水源补给区农户面临的主要生计风险为家庭发展需求风险、健康风险、社会风险,且重点保护区农户面临环境风险、家庭发展需求风险、政策风险的比例均显著高于恢复治理区和经济示范区农户。②农户对家庭发展需求风险的熟悉性、自愿性、持续性感知均最高,对健康风险的恐慌性、严重性及可能性感知均最高,对社会风险的可控性感知最高。其中,重点保护区农户对政策、市场及健康风险的可控性感知均高于其他区域。③人力资本对可能性感知、严重性感知、恐慌性感知、熟悉性感知产生了显著影响;物质资本对自愿性感知产生了显著影响。最后,提出了农户防范生计风险的对策建议。     

生态系统服务功能与景观格局耦合协调度研究——以武陵山区退耕还林工程为例

生态系统服务功能与景观格局演变关系极为密切,研究生态系统服务功能与景观格局的耦合协调度对于区域发展具有重要意义。以武陵山区退耕还林工程为例,参照国家标准和行业标准,采用分布式测算方法、景观格局指数分析和耦合协调度模型等方法,旨在揭示武陵山区退耕还林工程生态系统服务功能与景观格局二者耦合协调关系。结果表明:(1)2005—2017年间武陵山区退耕还林工程各项生态服务功能物质量均以15倍左右速度增长,生态系统服务空间分布格局最佳区域由西部地区逐渐向东南扩大;(2)武陵山区景观演变存在时空差异,1995—2005年景观格局变化更为明显,变化区域集中在中西部地区,2005—2015年与之相比,景观格局变化空间上更为分散;(3)武陵山区退耕还林工程生态系统服务与景观格局演变存在较高水平的耦合以及高水平的协调性。研究结果可为武陵山区土地利用规划及退耕还林工程进一步实施提供科学依据。     

三峡水库消落区不同生活史类型植物群落的空间分布格局

为探究三峡水库消落区不同生活史植物群落随海拔梯度及水库干流沿程的空间分布规律,于2017年8月至2017年9月对三峡水库干流消落区植被进行了调查。研究结果表明:(1)三峡水库消落区植被的植物物种丰富度随距大坝里程距离的缩短而呈现逐渐减小的趋势。(2)三峡水库消落区不同生活史类型植被群落盖度对水淹梯度胁迫的响应呈现相反的变化规律:随着消落区高程的升高,一年生植物对消落区植被覆盖度的贡献逐渐增加,而多年生植物对植被群落覆盖度的贡献逐渐降低。但是,在消落区的任一高程区域,多年生植物物种盖度均要大于一年生植物物种盖度。(3)采用TWINSPAN植被分类方法可对9个样地607个样方的三峡水库消落区植被划分为25个组,其中苍耳+狗牙根群落Ass.Xanthiumsibiricum+Cynodon dactylon(含213个样方)、狗牙根群落Ass.Cynodon dactylon(包含137个样方)、狗牙根+香附子群落Ass.Cynodon dactylon+Cyperus rotundus(含55个样方)、狗牙根+酸模叶蓼群落Ass.Cynodon dactylon+Polygonum lapathifolium(40个样方)、苍耳+藿香蓟群落Ass.Xanthiumsibiricum+Ageratum conyzoides(38个样方)等为消落区的优势植物群落,群落特征明显表现出对水位涨落及小生境差异的适应。     

二氢乳清酸脱氢酶的结构特征和催化循环研究进展

二氢乳清酸脱氢酶是黄素依赖的线粒体酶,它催化嘧啶从头合成的第4步反应,将二氢乳清酸氧化为乳清酸。通过选择性抑制二氢乳清酸脱氢酶,从而抑制嘧啶的合成,已被开发用于治疗癌症、自身免疫性疾病、细菌或病毒感染以及寄生虫疾病等。抑制剂的开发需详细了解二氢乳清酸脱氢酶的结构特征和催化循环机制。因此,文中主要从这两个方面进行了综述,并展望了该酶的抑制剂在临床应用中的前景。