Length–weight relationships for three fish species from the Yalong River,southwestern China

Length–weight relationships were determined for three fish species: Gymnodiptychus pachycheilus (Herzenstein, 1892), Discogobio yunnanensis (Regan, 1907), and Triplophysa pseudostenura (He, Zhang & Song, 2012). Samples were collected from the Yalong River, southwestern China using fishing gear (gillnets, 30 × 15 m, mesh‐size 5 mm) and electroshock fishing (CWB‐2000 P, 12 V, 250 HZ) in June 2007. Prior to this study, length–weight relationships for these three species were unknown. For two of the species [Discogobio yunnanensis (Regan, 1907) and Triplophysa pseudostenura (He, Zhang & Song, 2012)], new maximum standard lengths not yet reported in the scientific literature were noted.     

偶联羟化反应和辅酶再生体系产9α-羟基雄甾-4-烯-3,17-二酮

9α-羟基雄甾-4-烯-3,17-二酮(9-OH-AD)是一种重要的甾体药物中间体,可以用来制备β-甾酮,地塞米松和其他类固醇化合物。3-甾酮9α-羟基化酶(KSH)是由两个亚基即末端氧化亚基(KshA)和铁氧还蛋白还原亚基(KshB)构成的。在本研究中,人工合成了来源于分枝杆菌Mycobacterium sp.Strain VKM Ac-1817D的kshA和kshB基因,通过优化表达载体促进了KshA和KshB在E.coli BL21(DE3)中的可溶性表达,并探究了催化体系中KSH还原亚基和氧化亚基的最适添加比例。此外,KSH转化雄甾-4-烯-3,17-二酮(AD)为9-OH-AD的过程中需要辅酶NADH。本研究构建了羟基化反应与利用葡萄糖脱氢酶(GDH)的NADH辅酶再生反应的偶联体系。为了进一步提高转化效率,本研究进行了转化条件的优化,并采取了分批补料的策略,最终9-OH-AD产量为4.78 g/L,转化率为96.7%。此种酶介导的转化生产9-OH-AD的方法为甾体药物生产提供了一种环境友好和经济实用型的新策略。     

The Protein Phosphorylation Landscape of Mouse Spermatids during Spermiogenesis

The characteristic tadpole shape of sperm is formed from round spermatids via spermiogenesis, a process which results in dramatic morphological changes in the final stage of spermatogenesis in the testis. Protein phosphorylation, as one of the most important post‐translational modifications, can regulate spermiogenesis; however, the phosphorylation events taking place during this process have not been systematically analyzed. In order to better understand the role of phosphorylation in spermiogenesis, large‐scale phosphoproteome profiling is performed using IMAC and TiO₂ enrichment. In total, 13 835 phosphorylation sites, in 4196 phosphoproteins, are identified in purified mouse spermatids undergoing spermiogenesis in two biological replicates. Overall, 735 testis‐specific proteins are identified to be phosphorylated, and are expressed at high levels during spermiogenesis. Gene ontology analysis shows enrichment of the identified phosphoproteins in terms of histone modification, cilium organization, centrosome and the adherens junction. Further characterization of the kinase‐substrate phosphorylation network demonstrates enrichment of phosphorylation substrates related to the regulation of spermiogenesis. This global protein phosphorylation landscape of spermiogenesis shows wide phosphoregulation across a diverse range of processes during spermiogenesis and can help to further characterize the process of sperm generation. All MS data are available via ProteomeXchange with the identifier PXD011890.     

RSBP15 interacts with and stabilizes dRSPH3 during sperm axoneme assembly in Drosophila

Flagellum in sperm is composed of over 200 different proteins and is essential for sperm motility. In particular, defects in the assembly of the radial spoke in the flagellum result in male infertility due to loss of sperm motility. However, mechanisms regulating radial spoke assembly remain unclear in metazoans.Here, we identified a novel Drosophila protein radial spoke binding protein 15(RSBP15) which plays an important role in regulating radial spoke assembly. Loss of RSBP15 results in complete lack of mature sperms in seminal vesicles(SVs), asynchronous individualization complex(IC) and defective "9 + 2"structure in flagella. RSBP15 is colocalized with dRSPH3 in sperm flagella, and interacts with dRSPH3 through its DD_R_PKA superfamily domain which is important for the stabilization of dRSPH3. Moreover,loss of dRSPH3, as well as dRSPH1, dRSPH4 a and dRSPH9, showed similar phenotypes to rsbp15 KO mutant. Together, our results suggest that RSBP15 acts in stabilizing the radial spoke protein complex to anchor and strengthen the radial spoke structures in sperm flagella.     

Comparison of leaf area index inversion for grassland vegetation through remotely sensed spectra by unmanned aerial vehicle and field-based spectroradiometer

Aims Remote sensing technology has been proved useful in mapping grassland vegetation properties. Spectral features of vegetation cover can be recorded by optical sensors on board of different platforms. With increasing popularity of applying unmanned aerial vehicle (UAV) to mapping plant cover, the study aims to investigate the possible applications and potential issues related to mapping leaf area index (LAI) through integration of remote sensing imagery collected by multiple sensors.     

美花石斛化学成分及其护肤活性研究

本文研究美花石斛(Dendrobium loddigesii)的化学成分及其护肤活性。采用色谱法从美花石斛粗提物中分离得到12个化合物,利用波谱学方法分别鉴定为拖鞋状石斛素(1)、2,4,7-三羟基-9,10-二氢菲(2)、3,6,9-三羟基-3,4-二氢蒽-1(2H)-酮(3)、3,5′-二甲氧基-3′,4,9′-三羟基-7′,9-环氧-8,8′-木酚素(4)、5-(4-羟基-3-甲氧基苯乙基)-2-(4-羟基-3-甲氧基苯基)苯并二氢呋喃-3,7-二醇(5)、5-(4′′-羟基-3′′-甲氧基苯乙基)-2-(4′-羟基-5′-甲氧基苯基)-7-甲氧基苯并二氢吡喃-3-醇(6)、丁香脂素(7)、异香草醛(8)、松柏醛(9)、2-甲氧基-5-羟甲基苯酚(10)、二氢松柏醇(11)、4-羟基-3-甲氧基苯乙醇(12)。其中化合物3～5、7～12为首次从美花石斛中分离得到;化合物1、2、6(100μg/mL)有一定的自由基清除活性(>80%);化合物2(10μg/mL)有一定促胶原蛋白分泌活性(>20%)。结果显示从美花石斛的茎中分离得到了12个化合物,3个表现出良好的护肤活性。