Metamorphosis of self-organized quantum dots into quantum wires

Spontaneous formation of InAs quantum wires in InAlAs on InP(001) via sequential chain-like coalescence of quantum dots along [1 (1) over bar 0] is realized. Theoretical calculations based on the energetics of interacting steps provide a qualitative explanation for the experimental results. Sequential coalescence of initially isolated dots reduces the total free energy strikingly. Thus the wire-like structure is energetically favorable. (C) 1998 Elsevier Science B.V.

Larval metamorphosis and morphological characteristic analysis of triploid shrimp Fenneropenaeus chinensis (Osbeck, 1765)

Both MI and MII triploids were successfully produced by heat shock in Chinese shrimp Fenneropenaeus chinensis. The inducing conditions for MI and MII triploids were optimized. The highest inducing rate obtained for MI triploids reached more than 90%, and that for MII triploids reached nearly 100% at the nauplius stage as evaluated using flow cytometry. Comparisons of survival rates at larval stages between triploids and diploids or diploids experiencing treatment and diploids without treatment were performed. At larval stage from nauplii to postlarvae, heat shocks lowered survival at larval stages even if the ploidy was not changed. Ploidy did not affect shrimp larvae survival, and no significant difference was found in the survival of shrimp larvae between MI and MII triploids. Highly significant differences were observed in the morphology of triploids and diploids, and no apparent difference was found in the morphology of MI and MII triploids at the grow-out stages. Discriminating formulae for triploid and diploid shrimp at grow-out stage were developed and could be used to distinguish triploids from diploids based on morphological parameters. MI and MII triploids of shrimp have the potential to be used in aquaculture.

Pharmacological and immunocytochemical investigation of the role of catecholamines on larval metamorphosis by beta-adrenergic-like receptor in the bivalve Meretrix meretrix

Catecholamines regulate several physiological processes in mollusks. Many pharmacological experiments have been conducted to determine the effects of adrenergic agonist and antagonist of catecholamine receptors on Meretrix meretrix metamorphosis. Results showed that adrenaline (AD) and noradrenaline (NA) had substantial effects (p < 0.05) on larval metamorphosis at concentrations ranging from 10 mu M to 100 mu M. 10 mu M beta-adrenergic receptor (AR) agonist isoproterenol showed the same inducement effect as that of NA and AD on metamorphosis, whereas the alpha-AR agonist phenylephrine had no significant effect at concentrations between 0.1 mu M and 100 mu M concentrations (p > 0.05). Furthermore, I mu M beta-AR antagonist propanolol, but not alpha-AR antagonist prazosin, depressed the larval metamorphosis induced by NA or AD. By immunocytochemistry, two cell bodies of beta-adrenergic-like receptor, C/A1, C/A2, were observed in the cerebral/apical ganglion of competent larvae. In addition, there were other immunoreactive dots near C/A1 and C/A2. The results of pharmacology and immunocytochemistry suggests that beta-adrenergic-like receptor located in the larval CNS, might play a considerable role in the larval metamorphosis of M meretrix by AD or NA. (c) 2006 Elsevier B.V. All rights reserved.

海鞘（Ciona savignyi）性腺组织细胞、血细胞和生殖干样细胞的体外培养

随着对海洋无脊椎动物免疫、发育以及细胞生物学等方面研究的需要，海洋无脊椎动物细胞培养日益受到关注。然而，由于海洋无脊椎动物的细胞代谢途径以及生长特性与陆生哺乳动物有很大差异，细胞培养难度较大,至今尚未有连续的细胞系建立。海鞘（Ciona savignyi）属于尾索动物亚门(Urochordata)，是典型的被囊类动物。作为无脊椎动物中进化地位较高等的一类动物，海鞘在免疫、胚胎发育、细胞学等各个领域对研究脊椎动物的系统发生都有着非常重要的作用。 本文分别以海鞘的性腺组织细胞和血细胞为材料，建立和优化海鞘细胞体外培养方法和条件；另外，还识别了成体海鞘性腺内的生殖样干细胞，并对其进行了体外培养和鉴定，为进一步开展海鞘细胞体外培养最终建立细胞系积累了资料。 首先比较了4种基础培养基L-15、M199、DMEM和RPMIl640 与各种培养添加物组合、不同温度和PH值对海鞘性腺组织细胞和血细胞的体外生长的影响。结果表明，20℃，pH6.8，M199基础培养基添加10%胎牛血清最适合海鞘性腺组织细胞生长。同时对海鞘性腺的分离方法即机械解离细胞法和酶学解离细胞法进行了比较，发现机械解离细胞法最适合海鞘性腺组织细胞的分离，分离得到的细胞贴壁率和成活率高。对于海鞘血细胞的培养，20℃，pH6.8条件下，L-15基础培养基并添加10%胎牛血清对血细胞的体外存活和生长效果较好。另外，还成功的利用原代培养的血细胞检测了海鞘肿瘤坏死因子配体家族成员（CsTL）基因的表达变化。 论文还研究了海鞘细胞培养中细菌污染的鉴定和控制方法。对于培养过程中的细菌污染，通过细菌分离、培养和纯培养发现两类菌株检出率较高，均为革兰氏阴性菌。经PCR 扩增16S rDNA 基因序列片断，结果显示这两类菌株分别属于弧菌属和施万氏菌属。药敏试验结果表明，亚胺培南和氯霉素等对受检施万氏菌的敏感度较高；而受检弧菌对氯霉素和环丙沙星的敏感度高。为控制培养中的微生物污染，比较了几种抗生素组合的使用效果，其中氯霉素和亚胺培南与双抗的抗生素组合有较好的抑菌效果并对培养细胞的贴壁和生长没有影响。然而，海鞘性腺组织细胞和血细胞在体外的传代培养并未取得成功，本论文对来源于成体海鞘性腺的生殖样干细胞进行了体外培养和鉴定。结果表明，成体海鞘性腺内存在生殖样干细胞，且在体外可以生长，繁殖并且可能具有分化潜能。体外培养的过程中，生长的细胞克隆明显具有类似胚胎干细胞的形态和基因表达特点。 本研究克隆了海鞘肿瘤坏死因子配体家族成员（CsTL）基因。CsTL全长995个核苷酸编码281个氨基酸。组织表达结果显示，CsTL在性腺组织的表达水平相对比较高，提示CsTL可能对海鞘性腺的发育或分化等起着一定的作用。利用昆虫杆状病毒表达系统表达纯化了CsTL蛋白。结果显示，重组CsTL对L929细胞显示了明显的细胞毒性作用，说明CsTL是具有生物学活性的重组蛋白。但是尝试用获得的重组CsTL蛋白作为培养添加物培养海鞘性腺组织细胞，但并未检测到CsTL对海鞘性腺组织细胞的生长或凋亡有任何影响。 总之，本文筛选到了适合海鞘性腺组织细胞和血细胞生长的培养基，并成功的将这两类细胞在体外进行了原代培养，并且虽然细胞传代未获成功，但为今后继续深入开展海鞘细胞培养研究奠定了基础，另外，海鞘生殖样干细胞的识别和培养也将为海洋无脊椎动物的细胞培养提供一条新途径。

Toxicity of lead, cadmium and mercury on embryogenesis, survival, growth and metamorphosis of Meretrix meretrix larvae

In order to assess the toxicity of heavy metals on the early development of Meretrix meretrix, the effects of mercury (Hg), cadmium (Cd) and lead (Pb) on embryogenesis, survival, growth and metamorphosis of larvae were investigated. The EC50 for embryogenesis was 5.4 mu g l(-1) for Hg, 1014 mu g l(-1) for Cd and 297 mu g l(-1) for Pb, respectively. The 96 h LC50 for D-shaped larvae was 14.0 mu g l(-1) for Hg, 68 mu g l(-1) for Cd and 353 mu g l(-1) for Pb, respectively. Growth was significantly retarded at 18.5 mu g l(-1) (0.1 mu M) for Hg, 104 mu g l(-1) (1 mu M) for Cd and 197 mu g l(-1) (1 mu M) for Pb, respectively. The EC50 for metamorphosis, similar to 48 h LC50, was higher than 96 h LC50. Our results indicate that the early development of M. meretrix is highly sensitive to heavy metals and can be used as a test organism for ecotoxicology bioassays in temperate and subtropical regions.

Effects of starvation on larval growth, survival and metamorphosis of Ivory shell Babylonia formosae habei Altena et al., 1981 (Neogastropoda : Buccinidae)

The impact of starvation on larvae of Ivory shell Babylonia formosae habei was studied in a laboratory experiment. Newly hatched veligers showed considerable tolerance to starvation due to their endogenous yolk material, and time to the point-of-no-return (PNR; the threshold point during starvation after which larvae can longer metamorphose even if food is provided) was calculated to be 104.5 h. However, starvation still affected larval growth, survival, and metamorphosis. Mean shell length of larvae increased 49.77 mum day(-1) for nonstarved, but only 11.13 mum day (-1) for larvae starved for 108 h. After larvae began feeding, their growth rates rapidly recovered to the level of the nonstarved following short periods of starvation (less than 48 h), but were inhibited and unable to ever reach the level of the nonstarved when being starved beyond 48 h. Percent metamorphosis was 53.75% for the nonstarved, but all larvae died before 10 days for those starved for 108 h. Starvation not only affected larval time to reach metamorphosis, but also caused the delay in the time to metamorphosis. For the nonstarved, larvae took only 11.5 days to reach spontaneous metamorphosis, but they took 20 days to reach spontaneous metamorphosis when starved for 96 h, and this duration of delayed metamorphosis reached 8.5 days. Furthermore, the importance of yolk material for maintaining larval survival of B. formosae habei during starvation periods is also discussed. (C) 2004 Elsevier B.V. All rights reserved.

Effects of diet, stocking density, and environmental factors on growth, survival, and metamorphosis of Manila clam Ruditapes philippinarum larvae

A series of experiments was conducted to evaluate the effects of diet, stocking density, and environmental factors on growth, survival, and metamorphosis of Manila clam Ruditapes philippinarum larvae. These experiments examined the following factors: diet (Isochrysts spp., Chlorella spp., and a mixture of Isochrysis spp. and Chlorella spp. [ 1: 1 w/w]), stocking density (5, 10, 15, and 20 larvae ml(-1)), light intensity (un-shaded, partially shaded, and fully shaded), water filtration (unfiltered and sand-filtered), water exchange (50% and 100% once every other day, 25%, 50%, and 100% once daily; 50% and 100% twice daily), and the use of substrate (with and without sand as the substrate). Results indicated that Chlorella spp. could replace 50% of Isochrysis spp. as a food source for the Manila clam larvae without affecting growth, survival, and metamorphosis. Larval growth decreased significantly with increasing stocking density. A density of 5-10 larvae ml(-1) appeared to be optimal for normal growth of Manila clam larvae. Neither diet nor stocking density used in the study had a significant effect on larval survival. Under partially shaded (light intensity = 1000-5000 lx) and fully shaded (light intensity <500 lx) conditions, larval growth was significantly faster than under direct sunlight (un-shaded). A water exchange rate of 50% twice daily provided optimum larval growth. Larvae grew significantly faster in the unfiltered water than in the sand-filtered water. Using sand as the substrate in the culture system significantly depressed the metamorphosis rate. The type and particle size of sand used as the substrate did not significantly affect growth and metamorphosis rates of the larvae. (C) 2005 Published by Elsevier B.V.

A Quantitative Analysis of Growth and Size Regulation in Manduca sexta: The Physiological Basis of Variation in Size and Age at Metamorphosis.

Body size and development time are important life history traits because they are often highly correlated with fitness. Although the developmental mechanisms that control growth have been well studied, the mechanisms that control how a species-characteristic body size is achieved remain poorly understood. In insects adult body size is determined by the number of larval molts, the size increment at each molt, and the mechanism that determines during which instar larval growth will stop. Adult insects do not grow, so the size at which a larva stops growing determines adult body size. Here we develop a quantitative understanding of the kinetics of growth throughout larval life of Manduca sexta, under different conditions of nutrition and temperature, and for genetic strains with different adult body sizes. We show that the generally accepted view that the size increment at each molt is constant (Dyar's Rule) is systematically violated: there is actually a progressive increase in the size increment from instar to instar that is independent of temperature. In addition, the mass-specific growth rate declines throughout the growth phase in a temperature-dependent manner. We show that growth within an instar follows a truncated Gompertz trajectory. The critical weight, which determines when in an instar a molt will occur, and the threshold size, which determines which instar is the last, are different in genetic strains with different adult body sizes. Under nutrient and temperature stress Manduca has a variable number of larval instars and we show that this is due to the fact that more molts at smaller increments are taken before threshold size is reached. We test whether the new insight into the kinetics of growth and size determination are sufficient to explain body size and development time through a mathematical model that incorporates our quantitative findings.