野生与豢养长江江豚血清氨基酸含量比较

应用高效液相色谱(HPLC)技术,首次测定了湖北石首长江天鹅州白豚自然保护区野生长江江豚(Neophocaena phocaenoides asiaeorientalis)和中国科学院水生生物研究所白豚馆人工饲养的长江江豚血清中17种氨基酸的含量.结果表明,除了脯氨酸Pro、蛋氨酸Met和组氨酸His外,人工饲养江豚血清中其余14种氨基酸(天门冬氨酸Asp、谷氨酸Glu、丝氨酸Ser、精氨酸Arg、甘氨酸Gly、苏氨酸Thr、丙氨酸Ala、异亮氨酸Ile、亮氨酸Leu、苯丙氨酸Phe、缬氨酸Val、赖氨酸Lys、酪氨酸Tyr、胱氨酸Cys)的含量显著高于野生长江江豚血清中相应氨基酸的含量.野生江豚和人工饲养江豚的血清氨基酸含量均没有显著的性别差异.野生江豚性成熟个体与未成熟个体之间血清氨基酸含量也没有显著性的差异.在所检测的17种氨基酸中,豢养江豚Glu含量最高,其次为Asp和Lys.野生江豚同样是Glu最高,其次是Lys和Asp.豢养和野生江豚都是Met含量最低.野生和豢养江豚必需氨基酸(EAA)和非必需氨基酸(NEAA)之间的比率分别是0.83和0.92,具有极显著的差异(p <0.01).     

半滑舌鳎受精卵、卵黄囊仔鱼和开口仔鱼氨基酸及脂肪酸的变化

采用气相色谱仪和氨基酸分析仪测定了半滑舌鳎(Cynoglossus semilaevis)受精卵、卵黄囊仔鱼和开口仔鱼的氨基酸与脂肪酸组成的变化。结果表明:总氨基酸组成在受精卵和卵黄囊仔鱼之间变化明显,但是在卵黄囊仔鱼和开口仔鱼之间只有细微的变化。开口仔鱼与其摄食的轮虫的总必需氨基酸组成相关。受精卵、卵黄囊仔鱼、开口仔鱼的游离氨基酸含量分别为139 mg/g、3.6 mg/g和2.5 mg/g,占总氨基酸含量的22.3%、3.6%和2.5%。饱和脂肪酸的总量从受精卵到卵黄囊仔鱼明显下降,但是发育到开口仔鱼含量无显著变化。单不饱和脂肪酸和多不饱和脂肪酸的总量在不同发育阶段无显著变化,而EPA和DHA的含量从卵黄囊仔鱼到开口仔鱼有明显下降。这表明在早期发育阶段半滑舌鳎主要利用饱和脂肪酸作为能量代谢的基质,对饱和脂肪酸的利用程度大于单不饱和脂肪酸和多不饱和脂肪酸。半滑舌鳎似乎需要长链的多不饱和脂肪酸如EPA、DHA和ARA。     

枯萎病不同抗性黄瓜(Cucumis sativus L.)根系分泌物氨基酸组分与抗病的相关性

以5种对枯萎病不同抗性黄瓜品种为试材,对其根系分泌物氨基酸组分进行测定,并对氨基酸组分与黄瓜品种枯萎病抗病性之间的相关性进行了分析。结果表明：在中抗品种根系分泌中检测到的16种氨基酸：半胱氨酸Cys、苏氨酸Thr、丙氨酸Ala、缬氨酸Val、异亮氨酸Lle、天冬氨酸Asp、亮氨酸Leu、苯丙氨酸Phe、甘氨酸Gly、甲硫氨酸Met、组氨酸His、谷氨酸Glu、酪氨酸Tyr、赖氨酸Lys、丝氨酸Ser和精氨酸Arg。其中的精氨酸在感病品种中没有被检出,组氨酸和精氨酸组分在抗病品种中没有被检出。根系分泌物中总氨基酸含量随品种抗性的增加而降低;精氨酸、丝氨酸和赖氨酸的含量与品种对枯萎病的病情指数呈负相关,其他13种氨基酸组分含量与品种对枯萎病的病情指数呈正相关,其中苯丙氨酸含量与病情指数呈显著正相关。丝氨酸与苯丙氨酸、天冬氨酸、丙氨酸、甘氨酸的比值均与品种对枯萎病的病情指数呈显著负相关,其中Ser／Phe与品种对枯萎病的病情指数呈极显著负相关。     

红褐斑腿蝗卵黄蛋白的分离纯化及性质分析

用蒸馏水沉淀法、凝胶过滤、蛋白质电泳等方法提取纯化了红褐斑腿蝗Catantops pinguis (Stål)的卵黄蛋白,并对其性质进行了分析。电泳结合不同的染色方法证明红褐斑腿蝗的卵黄蛋白为一种糖脂复合蛋白,其分子量约为548 kD,由7个亚基组成,亚基分子量分别为147.3,100.2,95.9,59.6,53.6,49.0和42.2 kD。卵黄蛋白经高效液相色谱分析检测到17种氨基酸和NH₃峰,其中谷氨酸（Glu）百分含量最高,达13.46%,天冬氨酸（Asp）、亮氨酸（Leu）、半胱氨酸（Cys）、精氨酸（Arg）含量比较高,脯氨酸（Pro）、组氨酸（His）、赖氨酸（Lys）含量较低。     

圈养大熊猫粘液水解氨基酸含量的初步研究

收集了成都大熊猫繁育研究基地的 8只圈养大熊猫的 12个粘液样品并测定了其中 17种水解氨基酸(AA)的含量。结果如下 :粘液干物质中Glu含量最高 ,为 9 2 4 %± 0 4 7% ,其次为Leu、Asn、Thr、Ser、Pro、Val、Lys、Ala、Tyr、Arg、Gly、Ile、Phe、Cys、His,Met含量 (1 2 5 %± 0 18% )最低 ,不同样品中同一种AA的含量不同。样品中 9种非必需氨基酸 (NEAA)的总平均含量为 4 1 1%± 2 2 % ,8种必需氨基酸(EAA)的总平均含量为 2 9 8%± 1 8% ,NEAA/EAA的平均值为 1 38± 0 0 4 ,不同粘液样品的这些数值相近。不同样品中同一种EAA与该样品中Lys含量的比值存在不同程度的差异 ,样品中 (Tyr Phe) /Lys值最高 ,为1 79± 0 31;其次为Leu/Lys和Thr/Lys;而Met/Lys值最低 ,为 0 31± 0 0 5。各种氨基酸相对于总氨基酸含量的高低顺序与各AA绝对含量高低顺序完全相同 ,Glu含量最高为 13 0 %± 0 30 % ,Met含量为 1 76 %±0 2 5 %。结果表明 ,大熊猫粘液样品各种AA特别是EAA含量丰富 ,不同样品含量存在不同程度的差异 ;认为对排粘频繁和每次排粘量大的大熊猫 ,必须补充适量的优质蛋白以弥补由粘液排泄而造成的损失 ,以促进其体况的尽快恢复。     

牛蒡幼苗基本成分测定分析

牛蒡含有多种氨基酸,且含有苏氨酸、缬氨酸、亮氨酸、异亮氨酸、苯丙氨酸、赖氨酸以及组氨酸和精氨酸必需氨基酸和半必需氨基酸。必需氨基酸含量占总氨基酸含量的26.59%。无机元素测定结果表明,牛蒡含有16种化学元素,其中铁含量高达1560.4mg/kg,明显高于其它野生植物。     

人乳中氨基酸的含量及分析方法研究进展

人乳中含有丰富的氨基酸,其中赖氨酸、苏氨酸、亮氨酸、缬氨酸、异亮氨酸、苯丙氨酸、甲硫氨酸和组氨酸等必需氨基酸构成比例合理,牛磺酸和谷氨酸等条件必需氨基酸含量丰富,丙氨酸、丝氨酸、天冬氨酸和甘氨酸等非必需氨基酸含量也较为丰富;人乳中含有的氨基酸在维持婴儿生长发育、增强免疫力、肠道保护等方面发挥重要作用.本文综述了人乳中主要氨基酸的含量及分析方法,以期为婴儿食品的开发及母乳成分数据库的建立提供一定的依据.     

露螽属四种昆虫Cyt b基因序列及系统进化研究(直翅目,露螽科)

研究了露螽属4种昆虫线粒体细胞色素b基因(Cyt b)的部分序列,分析了核苷酸序列组成与变异及氨基酸差异.在得到的432bp序列中,A T约占66.9%,其中102个核苷酸位点发生了变异(约23.8%),从每个氨基酸密码子来看,第3位点的A T含量较高,为79.7%.Cyt b基因编码的144个氨基酸由19种氨基酸组成,有12个发生了变异,占氨基酸总数的8.33%,其中亮氨酸(Leu)与苯丙氨酸(Phe)的含量较高,谷氨酸(Glu)、赖氨酸(Lys)与精氨酸(Arg)的含量较低,无半胱氨酸(Cys).以日本纺织娘和中华螽斯为外群构建的NJ分子系统树显示,镰尾露螽与齿尾露螽是分化较晚的类群,其次是瘦露螽,黑角露螽是分化较早的类群.     

当归静脉注射液中氨基酸的含量测定

应用外标法测定当归静脉注射液中游离氨基酸和总氨基酸的含量。当归静脉注射液中含有15种氨基酸,其中游离氨基酸最高的是精氨酸,游离氨基酸最低的是甘氨酸。总氨基酸最高的是谷氨酸,总氨基酸最低的是赖氨酸。当归静脉注射液中氨基酸种类丰富,特定氨基酸如精氨酸、谷氨酸含量较高,是其临床特定一些疗效的基础之一。     

褐飞虱体内类酵母共生菌与氨基酸营养的关系

利用全纯人工饲料饲喂技术,研究了缺失不同氨基酸对高温(35℃)处理后的缺菌褐飞虱Nilaparvata lugens Stål相对生长速度、体内共生菌数量的影响,发现10种必需氨基酸对缺菌褐飞虱生长的影响明显大于10种非必需氨基酸,饲料中必需氨基酸的缺少对褐飞虱（特别是高温处理褐飞虱）体内共生菌数量有一定的刺激作用。分析了缺菌试虫体内氨基酸组成和转氨酶活性的变化规律,发现在摄取的氨基酸营养相同的条件下（用全纯饲料D-97饲养）,高温处理试虫体内蛋白质氨基酸组成无明显变化,而游离氨基酸总量明显上升,且必需氨基酸所占比例显著下降,其中组氨酸（His）、异亮氨酸（Ile）、亮氨酸（Leu）、赖氨酸（Lys）、蛋氨酸（Met）和苯丙氨酸（Phe）摩尔百分含量均显著下降,表明必需氨基酸的相对缺乏可能是体内蛋白质合成受阻的一个重要原因,推测这可能是由于试虫体内共生菌数减少致使所合成的必需氨基酸减少而引起。处理试虫体内谷氨酰胺合成酶（GS）和丙氨酸氨基转移酶（ALT）活性明显提高,天冬氨酸氨基转移酶(AST)活性显著降低,结合游离氨基酸中谷氨酰胺（Gln）显著增多,推测类酵母共生菌可能利用谷氨酰胺等为原料进行必需氨基酸的合成。     

MicroRNA in cell differentiation and development

The regulation of gene expression by microRNAs (miRNAs) is a recently discovered pattern of gene regulation in animals and plants. MiRNAs have been implicated in various aspects of animal development and cell differentiation, such as early embryonic development, neuronal development, muscle development, and lymphocyte development, by the analysis of genetic deletions of individual miRNAs in mammals. These studies show that miRNAs are key regulators in animal development and are potential causes of human diseases. Here we review some recent discoveries about the functions of miRNAs in cell differentiation and development. Supported by National Key Basic Research and Development Program of China (Grant No. 2005CB724602) and Knowledge Innovation Project of the Chinese Academy of Sciences (Grant Nos. KSCX2-YW-R-096, KSCX1-YW-R-64)     

Patterns in stage duration and development among marine and freshwater calanoid and cyclopoid copepods: a review of rules,physiological constraints,and evolutionary significance

Studies of development time of marine and freshwater copepods have taken separate tracks. Most studies on marine copepods report development time of each individual development stage, whereas studies on freshwater copepods report only development time, from egg to nauplius and nauplius to adult. This bias allows comparison of total development time but prevents detailed comparisons of patterns in stage-specific developmental schedules. With respect to egg to adult development time, three general relationships are known: developmental rates are dependent upon temperature and food concentration but independent of terminal body size; freshwater calanoids develop significantly slower than marine calanoids; freshwater cyclopoids develop at the same rate as marine calanoids. Two rules describe stage-specific developmental rates: the equiproportional rule and the isochronal rule. The first rule states that the duration of a given life history stage is a constant proportion of the embryonic development time; the second rule states that the time spent in each stage is the same for all stages. This review focuses on the second rule. From the 80+ published studies of copepod stage-specific developmental times, no species follows the isochronal rule strictly: Acartia spp. come closest with isochronal development from third nauplius (N3) to fourth copepodite (C4). The only pattern followed by all species is rapid development of the first and/or second naupliar stages, slow development of the second and/or third nauplius and prolonged development of the final copepodite stage. Once adulthood is reached, males are usually short-lived, but females can live for weeks to months in the laboratory. Adult longevity in the sea is, however, on the order of only a few days. The evolution of developmental patterns is discussed in the context of physiological constraints, along with consideration of possible relationships between stage-specific mortality rates and life history strategies. Physiological constraints may operate at critical bottlenecks in development (e.g. at the first feeding nauplius, N6, and the fifth copepodite stage). High mortality of eggs may explain why broadcast eggs hatch 2–3 times faster than eggs carried by females in a sac; high mortality of adults may explain why adults do not grow rather they maximize their reproductive effort by partitioning all energy for growth into egg production.     

MicroRNA与动物发育

MicroRNA(miRNA)是一类约22nt大小的内源性非编码RNA,它们通过剪切靶基因的转录产物或者抑制转录产物的翻译从而起到转录后调控靶基因表达的作用。在动物体内,通过基因敲除等方法所进行的大量研究表明了miRNA参与了胚胎早期发育、脑及神经发育、心脏发育、肌肉及骨骼发育等动物发育的各个方面。miRNA是动物发生发育过程中重要的调控因子。主要介绍了近年来miRNA在动物生长发育过程中的研究进展。     

Zinc deficiency and growth

Zinc deficiency remains a serious health problem worldwide affecting developed as well as developing countries. Despite the evidence proving that zinc deprivation during the periods of rapid growth negatively affects the cognitive brain as well as sexual development, there are few complete studies carried out in children. The present article proposes a revision of the evidence gathered until now on the relationship existing between zinc deficiency and intellectual and sexual development during the stages of childhood, preadolescence, and adolescence. An erratum to this article is available at .     

Characterization of Sgo1 expression in developing and adult mouse

SGO1 has been characterized in its function in correct cell division and its role in centrosome cohesion in the nucleus. However, its organ-specific maturation-related expression pattern in vivo remains largely uncharacterized. Here, we show clear SGO1 expression in post-developmental neuronal cells and cytoplasmic localisation in nucleated cells with a transgenic mice model and immunohistochemistry of wild type mice. We demonstrate extranuclear expression of Sgo1 in the developing heart and gut, which have been shown to be dysregulated in humans with homozygous SGO1 mutation. Additionally, we show Sgo1 expression in select population of retinal cells in developing and post-developmental retina. Our expression analysis strongly suggests that the function of SGO1 goes beyond its well characterized role in cell division.     

Variation, plasticity and modularity in anuran development

Although anuran development is generally thought to be relatively conservative, a great deal of variation is evident when different species are compared. This report summarizes the results of comparative analyses of different aspects of anuran development. These include differences in sequence and timing of developmental events, the effects of genome size, and the effects of different life history strategies on anuran embryogenesis. The results show that anuran development is plastic at the evolutionary level, and many changes can occur in the developmental processes of anurans throughout their evolution. Changes are apparently rapid, and are as common as cladogenic events. This evolutionary plasticity can be attributed to the modular nature of anuran development. Different modules can shift relative to one another in time or in space, creating variations in the observed developmental patterns. However, shifts in modules can occur even without having a significant effect on the ultimate outcome of the process. I discuss the implications of the modular nature of development on the evolution of anuran development, and of the group in general.     

In vitro cultivation of Fasciola hepatica metacercariae and of partially developed flukes recovered from mice

Attempts were made to culture the metacercariae of Fasciola hepatica under a wide variety of conditions. Of the media tested, the most successful was NCTC 135 plus 50% heat inactivated chick serum and sheep red blood cells at 37°–38°C. In this medium, somatic development of newly excysted juveniles was similar to that of flukes recovered from the liver of a mouse 11 days post-infection. There was, however, no corresponding development of the genital rudiment. Various supplements, such as liver extract, bile, yeast extract, embryo extract, egg products, monolayer cells and diphasic media were tested, but none enhanced development. The effects of various physical parameters on growth and development in vitro were examined. Cultured metacercariae appeared to be in a state of ‘suspended animation’; when injected intraperitoneally into mice they developed into egg-producing adults. Flukes recovered from the abdomen and liver of mice continued their somatic growth in vitro but their genitalia failed to develop further.     

Genetics and development

A selection of interesting papers that were published in the two months before our press date in major journals most likely to report significant results in genetics and development.     

Ecdysteroid titres during ovarian and embryonic development inBlaberus craniifer

Summary InBlaberus craniifer, the maturation of the oocytes is accompanied by morphological modifications of the surrounding follicular cells and by variations in the ecdysteroid titre.Before the follicular cells form the chorion, they synthesise ecdysteroids which pass into the terminal oocytes to be stored. During the secretion of the chorion, before the release of the oocytes, one observes a decrease of the ecdysteroid titre in the ovaries. The hormonal titres in ovaries and haemolymph fluctuate in parallel, probably because ovaries leak into the haemolymph.The terminal oocyte of each ovariole is deposited into the incubating pouch where the entire embryonic development takes place. There is first a decrease of the ecdysteroids synthesised by the follicular cells and stored in the eggs. One then observes 3 ecdysteroid peaks during each of the 2 cycles of the development. During the first cycle, the first peak coincides with the end of the metamerisation, the second peak with the secretion of the first cuticle and the third with the transition between the first and the second cycle. For the second cycle, the first peak coincides with the loss of the capacity to regenerate, the second with the secretion of the second cuticle and the third with the hatching period.The third peak of each of these 2 cycles is atypical compared with what is known of the larval cycles. The analysis of the hatching peak has shown that it is principally composed of a compound more polar than -ecdysone