Variation in the protocadherin gamma A gene cluster

We screened for variation in the 12 protocadherin gamma A (PCDHGA) genes of the protocadherin cluster on chromosome 5q31. We used denaturing high-performance liquid chromatography followed by sequencing to identify changes in the DNA sequence. We identified 24 nonsynonymous changes, 24 synonymous SNPs, and 9 polymorphisms in the 5' flanking regions. The variant with the greatest predicted impact on the encoded protein was a frameshift polymorphism in PCDHGA8, caused by a deletion of one C base (Pro174fsdelC). The del variant was more common in 512 controls compared to 506 schizophrenic (SZ) cases (10.6% vs 7.2%, p=0.007) but this trend was not replicated in an independent sample of 403 trios, in which it was transmitted 47 times and not transmitted 55 times from heterozygous parents (p=0.43). We screened 10 of the common polymorphisms for association with schizophrenia by genotyping pooled DNA from 540 SZ cases and 540 controls, but none of them showed a significant difference. It will be important to identify the phenotype associated with the loss of the PCDHGA8 gene.     

Regulation of protocadherin gene expression by multiple neuron-restrictive silencer elements scattered in the gene cluster

The clustered protocadherins are a subfamily of neuronal cell adhesion molecules that play an important role in development of the nervous systems in vertebrates. The clustered protocadherin genes exhibit complex expression patterns in the central nervous system. In this study, we have investigated the molecular mechanism underlying neuronal expression of protocadherin genes using the protocadherin gene cluster in fugu as a model. By in silico prediction, we identified multiple neuron-restrictive silencer elements (NRSEs) scattered in the fugu protocadherin cluster and demonstrated that these elements bind specifically to NRSF/REST in vitro and in vivo. By using a transgenic Xenopus approach, we show that these NRSEs regulate neuronal specificity of protocadherin promoters by suppressing their activity in non-neuronal tissues. We provide evidence that protocadherin genes that do not contain an NRSE in their 5′ intergenic region are regulated by NRSEs in the regulatory region of their neighboring genes. We also show that protocadherin clusters in other vertebrates such as elephant shark, zebrafish, coelacanth, lizard, mouse and human, contain different sets of multiple NRSEs. Taken together, our data suggest that the neuronal specificity of protocadherin cluster genes in vertebrates is regulated by the NRSE-NRSF/REST system.     

Functional diversification of the toll-like receptor gene family

Phylogenetic analyses supported the hypothesis that the vertebrate toll-like receptors (TLRs) include two very ancient groups that arose by gene duplication prior to the divergence of protostomes and deuterostomes: (1) the TLR1 family (including mammalian TLR1, TLR2, TLR6, and TLR10); and (2) a clade including the remainder of mammalian TLRs. Correlating data on ligand type, subcellular localization, and gene expression in leukocytes and other tissues with the phylogeny provided evidence that certain major functional specializations within the TLRs occurred after ancient gene duplication events and that these traits have been retained through further events of gene duplication. For example, the recognition of bacterial lipoproteins appears to have arisen in the ancestor of the TLR1 family and continues to characterize members of that family whose ligands are known. Likewise, expression on the endosomal membrane and the recognition of nucleic acids appears to have been arisen in the ancestor of the TLR7 family and some related TLRs. On the other hand, gene expression patterns across tissues appear to have been much more volatile over the evolution of the vertebrate TLRs, since genes may show expression profiles similar to those of distantly related genes but dissimilar to those of closely related genes. Thus, the vertebrate TLRs provide an example of a multi-gene family in which gene duplication has been followed by extensive changes in certain aspects of gene function, while others have been conserved throughout vertebrate history. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Functional diversification of lepidopteran opsins following gene duplication.

A comparative approach was taken for identifying amino acid substitutions that may be under positive Darwinian selection and are correlated with spectral shifts among orthologous and paralogous lepidopteran long wavelength-sensitive (LW) opsins. Four novel LW opsin fragments were isolated, cloned, and sequenced from eye-specific cDNAs from two butterflies, Vanessa cardui (Nymphalidae) and Precis coenia (Nymphalidae), and two moths, Spodoptera exigua (Noctuidae) and Galleria mellonella (Pyralidae). These opsins were sampled because they encode visual pigments having a naturally occurring range of lambda(max) values (510-530 nm), which in combination with previously characterized lepidopteran opsins, provide a complete range of known spectral sensitivities (510-575 nm) among lepidopteran LW opsins. Two recent opsin gene duplication events were found within the papilionid but not within the nymphalid butterfly families through neighbor-joining, maximum parsimony, and maximum likelihood phylogenetic analyses of 13 lepidopteran opsin sequences. An elevated rate of evolution was detected in the red-shifted Papilio Rh3 branch following gene duplication, because of an increase in the amino acid substitution rate in the transmembrane domain of the protein, a region that forms the chromophore-binding pocket of the visual pigment. A maximum likelihood approach was used to estimate omega, the ratio of nonsynonymous to synonymous substitutions per site. Branch-specific tests of selection (free-ratio) identified one branch with omega = 2.1044, but the small number of substitutions involved was not significantly different from the expected number of changes under the neutral expectation of omega = 1. Ancestral sequences were reconstructed with a high degree of certainty from these data. Reconstructed ancestral sequences revealed several instances of convergence to the same amino acid between butterfly and vertebrate cone pigments, and between independent branches of the butterfly opsin tree that are correlated with spectral shifts.     

Functional diversification of kir7.1 in cichlids accelerated by gene duplication

Mutation in the inward rectifier potassium channel gene, kir7.1, was previously identified as being responsible for the broader stripe zebrafish skin pattern mutant, jaguar/obelix. An amino acid substitution in this channel causes a broader stripe pattern than that of wild type zebrafish. In this study we analyzed cichlid homologs of the zebrafish kir7.1 gene. We identified two kinds of homologous genes in cichlids and named them cikir7.1 and cikir7.2. Southern hybridization using cichlid genome revealed that cichlids from the African Great Lakes, South America and Madagascar have two copies of the gene. Cichlids from Sri Lanka, however, showed only one band in this experiment. Database analysis revealed that only one copy of the kir7.1 gene exists in the genomes of the teleosts zebrafish, tetraodon, takifugu, medaka and stickleback. The deduced amino acid sequence of cikir7.1 is highly conserved among African cichlids, whereas that of cikir7.2 has several amino acid substitutions even in conserved transmembrane domains. Gene expression analysis revealed that cikir7.1 is expressed specifically in brain and eye, and cikir7.2 in testis and ovary; zebrafish kir7.1, however, is expressed in brain, eye, skin, caudal fin, testis and ovary. These results suggest that gene duplication of the cichlid kir7.1 occurred in a common ancestor of the family Cichlidae, that the function of parental kir7.1 was then divided into two genes, cikir7.1 and cikir7.2, and that the evolutionary rate of cikir7.2 might have been accelerated, thereby effecting functional diversification in the cichlid lineage. Thus, the evolution of kir7.1 genes in cichlids provides a typical example of gene duplication--one gene is conserved while the other becomes specialized for a novel function.     

原钙粘蛋白基因簇调控区域中成簇的CTCF结合位点分析

哺乳动物中原钙粘蛋白(Protocadherin, Pcdh)基因簇包含50多个串联排列的基因,这些基因形成3个紧密相连的基因簇(Pcdhα、Pcdhβ和Pcdhγ),所编码的原钙粘蛋白质群在神经元多样性(Neuronal diversity)和单细胞特异性(Single cell identity)以及神经突触信号转导中发挥重要作用。前期的工作已证实转录因子CTCF(CCCTC-binding factor)与CTCF结合位点(CTCF-binding site, CBS)的方向性结合能够决定增强子和启动子环化的方向以及其远距离交互作用的特异性,并进一步在Pcdh基因座(Locus)形成两个(Pcdhα和Pcdhγ)染色质拓扑结构域(CTCF/cohesin- mediated chromatin domain, CCD),而且染色质拓扑结构域对于控制基因表达调控至关重要。本文通过生物信息学方法对比人类和小鼠序列,发现Pcdhβγ染色质拓扑结构域调控区域中的DNase I超敏位点(DNase I hypersensitive sites, HSs)较为保守。染色质免疫沉淀及大规模测序实验(Chromatin immunoprecipitation and massive parallel sequencing, ChIP-Seq)揭示CBS位点在Pcdhβγ调控区域中成簇分布并且具有相同的方向。凝胶电泳迁移实验(Electrophoresis mobility shift assay, EMSA)确定Pcdhβγ调控区域内具体的42 bp CBS位点并且发现一个CTCF峰包含两个CBS位点。在全基因组范围内,运用计算生物学方法分析CTCF和增强子、启动子等调控元件的关系,发现CBS位点在调控元件附近有较多分布,推测CTCF通过介导增强子和启动子的特异性交互作用,在细胞核三维基因组内形成活性转录枢纽调控基因精准表达。     

Functional analysis of a prenyltransferase gene (paxD) in the paxilline biosynthetic gene cluster

Paxilline is an indole-diterpene produced by Penicillium paxilli. Six genes (paxB, C, G, M, P, and Q) in paxilline biosynthetic gene cluster were previously shown to be responsible for paxilline biosynthesis. In this study, we have characterized paxD, which is located next to paxQ and has weak similarities to fungal dimethylallyl tryptophan synthase genes. PaxD was overexpressed in Escherichia coli and the purified enzyme was used for in vitro analysis. When paxilline and dimethylallyl diphosphate were used as substrates, one major and one minor product, which were identified as di-prenyl paxilline and mono-prenyl paxilline by liquid chromatography–mass spectrometry analysis, were formed. The structure of the major product was determined to be 21,22-diprenylated paxilline, showing that PaxD catalyzed the successive di-prenylation. Traces of both products were detected in culture broth of P. paxilli by liquid chromatography–mass spectrometry analysis. The enzyme is likely to be a dimer and required no divalent cations. The optimum pH and temperature were 8.0 and 37 °C, respectively. The Km values were calculated as 106.4?±?5.4 μM for paxilline and 0.57?±?0.02 μM for DMAPP with a kcat of 0.97?±?0.01/s.     

Promoter choice determines splice site selection in protocadherin alpha and gamma pre-mRNA splicing

A family of mammalian protocadherin (Pcdh) proteins is encoded by three closely linked gene clusters (alpha, beta, and gamma). Multiple alpha and gamma Pcdh mRNAs are expressed in distinct patterns in the nervous system and are generated by alternative pre-mRNA splicing between different "variable" exons and three "constant" exons within each cluster. We show that each Pcdh variable exon is preceded by a promoter and that promoter choice determines which variable exon is included in a Pcdh mRNA. In addition, we provide evidence that alternative splicing of variable exons within a gene cluster occurs via a cis-splicing mechanism. However, virtually every variable exon can engage in trans-splicing with constant exons from another cluster, albeit at a far lower level.     

卡西霉素生物合成基因簇中调控基因calR1的功能

【背景】卡西霉素(calcimycin)是重要的离子载体抗生素,其生物合成基因簇已从教酒链霉菌NRRL3882的基因组DNA中成功克隆,但基因簇内的部分生物合成基因及调控基因的功能有待研究。【目的】研究卡西霉素产生菌教酒链霉菌NRRL3882中编码TylR家族同源转录调控蛋白的calR1基因的功能。【方法】通过PCR-targeting的方法,构建calR1基因敲除突变株及回补菌株,对突变菌株及回补菌株进行发酵,通过HPLC分析其代谢产物。利用荧光定量PCR检测ΔcalR1突变菌株和野生菌株的生物合成基因转录水平。【结果】calR1基因敲除突变株丧失产生卡西霉素的能力,但仍有中间产物噻唑霉素的积累,回补菌株中卡西霉素的产量有一定程度的恢复。RT-qPCR结果表明,卡西霉素合成相关的一些重要基因calC、calG、calU3等基因的表达量明显改变。【结论】TylR家族转录调控基因calR1是卡西霉素生物合成的调控基因。     

Functional diversification of taste cells in vertebrates

Tastes are senses resulting from the activation of taste cells distributed in oral epithelia. Sweet, umami, bitter, sour, and salty tastes are called the five “basic” tastes, but why five, and why these five? In this review, we dissect the peripheral gustatory system in vertebrates from molecular and cellular perspectives. Recent behavioral and molecular genetic studies have revealed the nature of functional taste receptors and cells and show that different taste qualities are accounted for by the activation of different subsets of taste cells. Based on this concept, the diversity of basic tastes should be defined by the diversity of taste cells in taste buds, which varies among species.     

Functional organization of the gene cluster involved in the synthesis of the pneumococcal capsule.

Streptococcus pneumoniae is a major human pathogen and its capsular polysaccharide has been shown to be the main virulence factor. The molecular organization of the genes governing the formation of this capsule was not studied until the 1990s. The capsular clusters (cap) of eight of the 90 known pneumococcal types have now been studied. The cap operon, located between the dexB and aliA genes, is arranged as a central region comprising the genes coding for the specific-type polysaccharide, flanked by open reading frames that are mostly common to all of the serotypes. The biochemical functions of 24 genes required for capsular polysaccharide biosynthesis have been elucidated but the precise role of the flanking regions in capsular formation is unknown. The natural genetic transformation characteristic of pneumococci, the arrangement of the cap locus and the abundance of transposable elements at this locus favor the genetic variability of the capsule in this microorganism. These well-documented observations together with the finding that some genes located outside the cap cluster may also participate in capsule formation increase the complexity of pneumococcal infection control.     

Immunolocalization of the gamma isoform of nonmuscle actin in cultured cells

In many vertebrate nonmuscle cells, the microfilament subunit protein, actin, exists as two isoforms, called beta and gamma, whose sequences differ only in their amino-terminal regions. We have prepared a peptide antibody specifically reactive with the amino-terminal sequence of gamma actin. This antibody reacted with nonmuscle actin as determined by Western blots of SDS gels, and reacted with the gamma, but not the beta, nonmuscle actin isoform as shown by Western blots of isoelectric focusing gels. In immunofluorescence experiments, the gamma peptide antibody stained microfilament bundles, ruffled edges, and the contractile ring of a variety of cultured cells, including mouse L cells, which have previously been reported to contain only the beta actin isoform (Sakiyama, S., S. Fujimura, and H. Sakiyama, 1981, J. Biol. Chem., 256:31-33). Double immunofluorescence experiments using the gamma peptide antibody and an antibody reactive with all actin isoforms revealed no differences in isoform localization. Thus, at the level of resolution of light microscopy, we have detected the gamma actin isoform in all microfilament-containing structures in cultured cells, and have observed no subcellular sorting of the nonmuscle actin isoforms.     

G protein beta gamma subunits synthesized in Sf9 cells. Functional characterization and the significance of prenylation of gamma.

Heterotrimeric guanine nucleotide-binding regulatory proteins (G proteins) consist of a nucleotide-binding alpha subunit and a high-affinity complex of beta and gamma subunits. There is molecular heterogeneity of beta and gamma, but the significance of this diversity is poorly understood. Different G protein beta and gamma subunits have been expressed both singly and in combinations in Sf9 cells. Although expression of individual subunits is achieved in all cases, beta gamma subunit activity (support of pertussis toxin-catalyzed ADP-ribosylation of rGi alpha 1) is detected only when beta and gamma are expressed concurrently. Of the six combinations of beta gamma tested (beta 1 or beta 2 with gamma 1, gamma 2, or gamma 3), only one, beta 2 gamma 1, failed to generate a functional complex. Each of the other five complexes has been purified by subunit exchange chromatography using Go alpha-agarose as the chromatographic matrix. We have detected differences in the abilities of the purified proteins to support ADP-ribosylation of Gi alpha 1; these differences are attributable to the gamma component of the complex. When assayed for their ability to inhibit calmodulin-stimulated type-I adenylylcyclase activity or to potentiate Gs alpha-stimulated type-II adenylylcyclase, recombinant beta 1 gamma 1 and transducin beta gamma are approximately 10 and 20 times less potent, respectively, than the other complexes examined. Prenylation and/or further carboxyl-terminal processing of gamma are not required for assembly of the beta gamma subunit complex but are indispensable for high affinity interactions of beta gamma with either G protein alpha subunits or adenylylcyclases.     

Birth,death and horizontal transfer of the fumonisin biosynthetic gene cluster during the evolutionary diversification of Fusarium

Fumonisins are a family of carcinogenic secondary metabolites produced by members of the Fusarium fujikuroi species complex (FFSC) and rare strains of Fusarium oxysporum. In Fusarium, fumonisin biosynthetic genes (FUM) are clustered, and the cluster is uniform in gene organization. Here, sequence analyses indicated that the cluster exists in five different genomic contexts, defining five cluster types. In FUM gene genealogies, evolutionary relationships between fusaria with different cluster types were largely incongruent with species relationships inferred from primary‐metabolism (PM) gene genealogies, and FUM cluster types are not trans‐specific. In addition, synonymous site divergence analyses indicated that three FUM cluster types predate diversification of FFSC. The data are not consistent with balancing selection or interspecific hybridization, but they are consistent with two competing hypotheses: (i) multiple horizontal transfers of the cluster from unknown donors to FFSC recipients and (ii) cluster duplication and loss (birth and death). Furthermore, low levels of FUM gene divergence in F. bulbicola, an FFSC species, and F. oxysporum provide evidence for horizontal transfer of the cluster from the former, or a closely related species, to the latter. Thus, uniform gene organization within the FUM cluster belies a complex evolutionary history that has not always paralleled the evolution of Fusarium.     

Functional analysis of the cyclopiazonic acid biosynthesis gene cluster in Aspergillus oryzae RIB 40

The cyclopiazonic acid (CPA) nonproducing strain, Aspergillus oryzae RIB 40, does not biosynthesize cyclo-acetoacetyl-L-tryptophan (cAATrp) due to a truncation in the responsible PKS-NRPS gene. We found that RIB 40 converted cAATrp to 2-oxocyclopiazonic acid, the final product of CPA biosynthesis in A. oryzae. This indicates that the CPA biosynthesis gene cluster, except for the PKS-NRPS gene, is functional in RIB 40.