Zebrafish tenascin-W,a new member of the tenascin family

A cDNA clone encoding tenascin-W, a novel member of the tenascin family, was isolated from a 20- to 28-h postfertilization (hpf) zebrafish cDNA library on the basis of the conserved epidermal growth factor-like domains represented in all tenascin molecules. An open reading frame of 2796 base pairs encodes a mature protein consisting of heptad repeats, a cysteine-rich amino terminal region, 3.5 epidermal growth factor-like repeats, five fibronectin type III homologous repeats, and a domain homologous to fibrinogen. These domains are the typical modular elements of molecules of the tenascin family. Sequence comparison demonstrated that TN-W shares homologies with the members of the tenascin family but is not a species homolog of any identified tenascin. The expression pattern of tn-w was analyzed by in situ hybridization in 1-day-old embryos, in 3-day-old larvae, and in juvenile zebrafish. At 24–25 hpf, tn-w mRNA was expressed in the lateral plate mesoderm, most conspicuously in the presumptive sclerotome. Migrating cells of sclerotomal and neural crest origins also showed high levels of expression. At 3 days, expression by sclerotomal and neural crest cells continued to be observed while expression in the somitic mesoderm was decreased. In juvenile fish, tn-w was expressed weakly by cells in the myosepta and, more strongly, by presumably nonneuronal cells in the dorsal root ganglia. In these tissues and at the same developmental stages, the expression of tn-w partially overlapped with the distribution of tn-c mRNA. In addition, tn-c was expressed in the central nervous system (CNS) and in the axial mesoderm, neither of which expressed tn-w at any of the age stages examined. The expression pattern of tn-w suggests an involvement in neural crest and sclerotome cell migration and in the formation of the skeleton. Similar and possibly overlapping functions could also be performed by tn-c, which appears to have additional functions during the development of the CNS. © 1998 John Wiley & Sons, Inc. J Neurobiol 35: 1–16, 1998     

Structural and biophysical properties of h-FANCI ARM repeat protein

Fanconi anemia complementation groups – I (FANCI) protein facilitates DNA ICL (Inter-Cross-link) repair and plays a crucial role in genomic integrity. FANCI is a 1328 amino acids protein which contains armadillo (ARM) repeats and EDGE motif at the C-terminus. ARM repeats are functionally diverse and evolutionarily conserved domain that plays a pivotal role in protein–protein and protein–DNA interactions. Considering the importance of ARM repeats, we have explored comprehensive in silico and in vitro approach to examine folding pattern. Size exclusion chromatography, dynamic light scattering (DLS) and glutaraldehyde crosslinking studies suggest that FANCI ARM repeat exist as monomer as well as in oligomeric forms. Circular dichroism (CD) and fluorescence spectroscopy results demonstrate that protein has predominantly α- helices and well-folded tertiary structure. DNA binding was analysed using electrophoretic mobility shift assay by autoradiography. Temperature-dependent CD, Fluorescence spectroscopy and DLS studies concluded that protein unfolds and start forming oligomer from 30°C. The existence of stable portion within FANCI ARM repeat was examined using limited proteolysis and mass spectrometry. The normal mode analysis, molecular dynamics and principal component analysis demonstrated that helix-turn-helix (HTH) motif present in ARM repeat is highly dynamic and has anti-correlated motion. Furthermore, FANCI ARM repeat has HTH structural motif which binds to double-stranded DNA.     

基因组编辑脱靶研究进展

近年各种基因组编辑技术的成功研发为人类疾病的治疗与预防谱写了新的篇章,这些技术对应的基因组编辑工具主要包括锌指核酸酶(ZFNs)、转录激活子样效应因子核酸酶(TALENs)和最近发现的规律成簇间隔短回文重复(CRISPR)/Cas系统。这些工具相应的脱靶问题目前是制约基因组编辑技术介导人类疾病治疗的重要瓶颈。本文将分别从基因组编辑工具的介绍、脱靶的现状、解决优化的方案和检测方法进行总结与探讨,通过比较,进一步了解基因组编辑工具的优缺点及相关脱靶检测方法的适用性。     

Chromosomal distribution of interstitial telomeric sequences as signs of evolution through chromosome fusion in six species of the giant water bugs (Hemiptera,Belostoma)

Tandem arrays of TTAGG repeats show a highly conserved location at the telomeres across the phylogenetic tree of arthropods. In giant water bugs Belostoma, the chromosome number changed during speciation by fragmentation of the single ancestral X chromosome, resulting in a multiple sex chromosome system. Several autosome–autosome fusions and a fusion between the sex chromosome pair and an autosome pair resulted in the reduced number in several species. We mapped the distribution of telomeric sequences and interstitial telomeric sequences (ITSs) in Belostoma candidulum (2n = 12 + XY/XX; male/female), B. dentatum (2n = 26 + X₁X₂Y/X₁X₁X₂X₂), B. elegans (2n = 26 + X₁X₂Y/X₁X₁X₂X₂), B. elongatum (2n = 26 + X₁X₂Y/X₁X₁X₂X₂), B. micantulum (2n = 14 + XY/XX), and B. oxyurum (2n = 6 + XY/XX) by FISH with the (TTAGG)_n probes. Hybridization signals confirmed the presence of TTAGG repeats in the telomeres of all species examined. The three species with reduced chromosome numbers showed additional hybridization signals in interstitial positions, indicating the occurrence of ITS. From the comparison of all species here analyzed, we observed inverse relationships between chromosome number and chromosome size, and between presence/absence of ITS and chromosome number. The ITS distribution between these closely related species supports the hypothesis that several telomere–telomere fusions of the chromosomes from an ancestral diploid chromosome number 2n = 26 + XY/XX played a major role in the karyotype evolution of Belostoma. Consequently, our study provide valuable features that can be used to understand the karyotype evolution, may contribute to a better understanding of taxonomic relationships, and also elucidate the high plasticity of nuclear genomes at the chromosomal level during the speciation processes.     

Five polymorphic microsatellite markers for the study of Cardiocondyla elegans (Hymenoptera: Myrmicinae)

We describe primer sequences for five microsatellite markers in Cardiocondyla elegans, an ant species with ergatoid males. Polymorphism of these loci was investigated using 236 individuals from 22 colonies from four locations. The microsatellites are dinucleotide repeats with four to 16 alleles, and the observed heterozygosity ranges from 0.244 to 0.720. We characterized these markers for the study of the population as well as the social structure of colonies.     

Development of polymorphic markers for Cirsium arvense,Canada thistle,and their amplification in closely related taxa

Suppression of invasive Canada thistle, Cirsium arvense, with biological control agents has stalled because introduced agents were not host‐specific. To aid in the development of more effective management strategies, molecular markers are needed to examine the genetic structure of Canada thistle populations. Microsatellite (simple sequence repeat) markers were developed and intersimple sequence repeat (ISSR) markers were tested for North American populations. An average of nine polymorphic alleles per microsatellite locus and 11 per ISSR locus were detected. These will be used to examine the genetic structure of C. arvense in the northern Great Plains and their transferability to endemic Cirsium spp.     

水稻早世代稳定相关的SSR标记

以具有早世代稳定特性的9个水稻品系和7个栽培稻进行杂交得到130个杂交组合。发现在同一个组合的F2群体中除出现孟德尔式分离株系外还出现性状整齐一致的稳定株系,在F2群体中出现了32个不同农艺性状的稳定株系。SSR标记结果表明：稳定株系F2与其F1单株的标记一致,都是纯合的,且双亲的标记在后代都有出现,双亲的标记位点在后代的染色体上同时出现,说明稳定株系为真杂种;分离株系F2与其F1单株SSR标记均为杂合;大部分稳定株系在RM276、RM258、RM248、RM1这4个标记位点都较高频率地出现非父母带型。推测出现变异的配子激活杂种合子体细胞减数分裂,合子经过减数分裂后,4个单倍体细胞经过胚胎发育选择,其中一个细胞染色体加倍而发育为纯合的二倍体植株。     

Complete chloroplast genome of the medicinal plant Evolvulus alsinoides: comparative analysis,identification of mutational hotspots and evolutionary dynamics with species of Solanales

Evolvulus alsinoides, belonging to the family Convolvulaceae, is an important medicinal plant widely used as a nootropic in the Indian traditional medicine system. In the genus Evolvulus, no research on the chloroplast genome has been published. Hence, the present study focuses on annotation, characterization, identification of mutational hotspots, and phylogenetic analysis in the complete chloroplast genome (cp) of E. alsinoides. Genome comparison and evolutionary dynamics were performed with the species of Solanales. The cp genome has 114 genes (80 protein-coding genes, 30 transfer RNA, and 4 ribosomal RNA genes) that were unique with total genome size of 157,015 bp. The cp genome possesses 69 RNA editing sites and 44 simple sequence repeats (SSRs). Predicted SSRs were randomly selected and validated experimentally. Six divergent hotspots such as trnQ-UUG, trnF-GAA, psaI, clpP, ndhF, and ycf1 were discovered from the cp genome. These microsatellites and divergent hot spot sequences of the Taxa ‘Evolvulus’ could be employed as molecular markers for species identification and genetic divergence investigations. The LSC area was found to be more conserved than the SSC and IR region in genome comparison. The IR contraction and expansion studies show that nine genes rpl2, rpl23, ycf1, ycf2, ycf1, ndhF, ndhA, matK, and psbK were present in the IR-LSC and IR-SSC boundaries of the cp genome. Fifty-four protein-coding genes in the cp genome were under negative selection pressure, indicating that they were well conserved and were undergoing purifying selection. The phylogenetic analysis reveals that E. alsinoides is closely related to the genus Cressa with some divergence from the genus Ipomoea. This is the first time the chloroplast genome of the genus Evolvulus has been published. The findings of the present study and chloroplast genome data could be a valuable resource for future studies in population genetics, genetic diversity, and evolutionary relationship of the family Convolvulaceae.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12298-021-01051-w.