中国境内黑腹果蝇Drosophila melanogaster群体由对P族转座子敏感性形 …

中国境内从新疆,西藏到沿海,包括中国台湾,海南及崇明３大岛,共取样７０多个地区品系,遗传分析和单个果蝇的ＤＮＡ压印分子杂交分析后确定,在中国境内该果蝇主要是Ｍ型,中在遗传分析中,除沿海地区外,大多表现很高的对Ｐ敏感性（高达１００％左右）,但在分子检测中都带有Ｐ因子的Ｐ１和Ｐ２的片段,故尔确定为Ｍ型,而大连半岛,崇明岛和台中３地区的Ｐ活性较高,它们分别是１１％,１８％和２８％,为Ｑ型（台湾的其他地区     

中国东北地区黑腹果蝇（Drosophila melanogaster）P因子分布和来源

真核生物的转座因子(transposable elements)特别是果蝇P因子在研究生物进化上有重要的意义。以我国东北地区13个地方及毗邻的北京、烟台和呼和浩特三个地方共130个黑腹果蝇(D.melanogaster)单雌系为材料,对P因子序列的ORF2-ORF3区段进行PCR扩增,统计不同地方黑腹果蝇群体的P因子在此区段的缺失频率,再从整个地区来分析P因子缺失的分布规律,以推导东北地区黑腹果蝇中P因子的传递和扩散途径。结果显示P因子缺失频率由边境地区向内地逐渐递减,群体相对隔离的地方也较低,推断我国东北地区黑腹果蝇中P因子由朝鲜和俄罗斯向中国边境入侵后,逐步向中国内地扩散。     

中国东北地区黑腹果蝇(Drosophila melanogaster)P因子分布和来源

真核生物的转座因子(transposable elements)特别是果蝇P因子在研究生物进化上有重要的意义。以我国东北地区13个地方及毗邻的北京、烟台和呼和浩特三个地方共130个黑腹果蝇(D.melanogaster)单雌系为材料,对P因子序列的ORF2-ORF3区段进行PCR扩增,统计不同地方黑腹果蝇群体的P因子在此区段的缺失频率,再从整个地区来分析P因子缺失的分布规律,以推导东北地区黑腹果蝇中P因子的传递和扩散途径。结果显示P因子缺失频率由边境地区向内地逐渐递减,群体相对隔离的地方也较低,推断我国东北地区黑腹果蝇中P因子由朝鲜和俄罗斯向中国边境入侵后,逐步向中国内地扩散。     

果蝇蜕皮激素诱导程序性细胞死亡的遗传调控因子

近年来关于果蝇程序性细胞死亡（programmed cell death, PCD）的研究结果表明,在果蝇的变态发育过程中,蜕皮激素与受体结合后诱导转录因子的表达。这些转录因子作为程序性细胞死亡调控网络中的初、次级应答信号,激活凋亡诱导因子Reaper、Hid和Grim的表达。Reaper、Hid和Grim进而阻止凋亡蛋白抑制因子的活性,从而启动半胱氨酸蛋白酶caspase途径,引起细胞凋亡（apoptosis）。该文综述了蜕皮激素诱导的果蝇程序性细胞死亡中各遗传调控因子之间的关系。     

横断山地区的伏绕眼果蝇亚属及三新种(双翅目:果蝇科)

本文记述分布在中国横断山地区绕眼果蝇属伏绕眼果蝇亚属［Ａｍｉｏｔａ（Ｐｈｏｒｔｉｃａ）］的１１个物种，其中包括３个新种：不对称绕眼果蝇Ａ．（Ｐ．）ａｃｏｎｇｒｕｅｎｓｓｐ．ｎ．、突绕眼果蝇Ａ．（Ｐ．）ｐｒｏｔｒｕｓａｓｐ．ｎ．、韩氏绕眼果蝇Ａ．（Ｐ．）ｈａｎｉｓｐ．ｎ．。     

横断山地区的伏绕眼果蝇亚属及三新种

本文记述分布在中国樱花断山地区绕眼果蝇属伏绕眼果蝇亚属「Ａｍｉｏｔａ（Ｐｈｏｒｔｉｃａ）」的１１个物种,其中包括３个新种,不对称绕眼果蝇Ａ．（Ｐ．）ａｃｏｎｇｒｕｅｎｓ ｓｐ．ｎ．、突绕眼果蝇Ａ．（Ｐ．）ｐｒｏｔｒｕｓａ ｓｐ．ｎ．、韩氏绕眼果蝇Ａ．（Ｐ．）ｈａｎｉ ｓｐ．ｎ。     

果蝇心脏发育研究三十年进展

果蝇(Drosophila melanogaster)作为最早用于研究心脏发育基因调控的模式生物,已经走过三十年的历程。果蝇心脏发育过程经历了胚胎期、幼虫期和成虫期三大阶段。在胚胎早期, Tinman、Dorsocross和Pannier等基因是关键的调控因子。Tinman参与最早的心脏前体细胞分化和心脏细胞形成,而Dorsocross和Pannier则影响心脏前体细胞的定向分化和心脏管腔的形成。进入胚胎晚期和幼虫期,果蝇的心管经历进一步的发展和重塑,该过程主要受到转录因子Hand、Mef2以及Hox基因家族的调控。在成虫期, Hox基因家族和Tinman依旧发挥重要作用。虽然果蝇心脏与脊椎动物成熟心脏存在形态上的差异,但两者心脏的早期发育过程以及调控基因和信号通路都有保守性。本文综述了果蝇心脏发育基因调控研究的三十年进展以及利用果蝇模型研究人类心脏相关疾病的潜在希望。     

利用GAL4-UAS系统在果蝇中过表达研究人类基因功能

随着人类基因组测序的基本完成 ,大量新基因被发现 ,其中许多只有序列及基因组定位信息。新的焦点是这些新基因的功能研究。模式生物果蝇对此起重要作用。利用转基因果蝇和GAL4 UAS系统初步鉴定功能基因 ,建立了源于 10个不同人类基因的共 5 4个转基因果蝇品系 ,然后用 6种不同的GAL4诱导这些转基因在果蝇中过量表达。其中一个人类基因 ,延伸因子 1alpha 1(EF1α 1)的过表达导致果蝇的背板异常和糙眼表型。该研究表明可在果蝇中利用基因过表达策略初筛人类功能基因 ,这为大规模人类基因的功能研究提供了新的手段     

热休克蛋白——细胞的内源性保护蛋白

关于应激反应的最初报道是 1 962年Ｒｉ ｔｏｓｓａ等在果蝇唾液腺染色体中发现一种热诱导的“蓬松”现象 ,并具有基因转录活性[1] 。 1 974年Ｔｉｓｓｉｅｒｓ等从热休克果蝇唾液腺细胞中分离出一组特殊蛋白质即热休克蛋白 (ｈｅａｔｓｈｏｃｋｐｒｏｔｅｉｎ ,ＨＳＰ)。目前根据分子量ＨＳＰ可分为 6个家族 ,1 0 0～ 1 1 0ｋＤ大分子ＨＳＰ家族、ＨＳＰ90家族、ＨＳＰ70家族、ＨＳＰ60家族、ＨＳＰ40家族及 1 8～ 3 0ｋＤ的小分子ＨＳＰ家族。其中ＨＳＰ70是最保守和研究最为深入的一种[2 ] 。在正常情况下 ,ＨＳＰ70通过辅助新生肽的折叠…     

黑腹果蝇P转座因子研究 Ⅰ.我国黑腹果蝇的P-M测定及其地理分布

采用性腺败育(GD不育)作为标准检定方法。对我国20个地方的黑腹果蝇的P因子活性和细胞型进行了测定。结果表明我国北部沿海城市为Q型;南部沿海和内地皆为M型。各地的M品系所产生的GD不育能力各不相同,但表现出与地理位置相关的梯度变化。这一变化规律为研究我国黑腹果蝇的P因子起源及P和M品系的形成提供了重要的理论依据。     

Drosophila mediopunctata P elements: a new example of horizontal transfer.

Sequences homologous to the P element of Drosophila melanogaster were previously identified in Drosophila mediopunctata, a member of the tripunctata group, subgenus Drosophila. We report here that the P element is present in about three to five copies in the D. mediopunctata genome. While one of the insertion sites appears to be fixed, others may be polymorphic, indicating relatively recent P element activity. Phylogenetic analysis revealed that the D. mediopunctata element belongs to the canonical subfamily of P elements and that divergence of the D. mediopunctata element from other members of this subfamily ranges from 2% to 5% at the nucleotide level. This is the first report of a canonical P element outside the subgenus Sophophora. Based primarily on the striking incongruence between P element and host species phylogenies, the presence of a canonical P element in D. mediopunctata is most likely explained by horizontal transfer between species.     

环境对果蝇P转座因子的作用关系研究

转座因子,重组、整合、遗传效应等是目前遗传学领域的一个研究热题。转座因子对遗传变异、宗系进化、突变频率、物种形成、新基因的产生以及对分子生物学、遗传工程学、群体遗传学和数量遗传学等方面的研究都有着重要的意义,主要对果蝇的P转座因子以及环境对P转座因子遗传效应的作用关系进行了研究。     

3D打印技术在植物繁殖生态学中的应用进展与评述

3D打印(3D printing)是以数字化模型为基础,运用粉末状金属或塑料等可粘合材料,通过逐层打印的方式构造物体的一项技术。由于3D打印具有灵活和精密的特点,这一技术已经在军工、航天等制造行业中发挥了重要作用。鉴于3D打印的独特优势,该技术也可以在植物繁殖生态学研究中发挥作用而且具有广阔的应用前景,但目前还处于探索阶段。该文概述了3D打印技术以及植物繁殖生态学的花特征进化研究,同时总结了3D打印技术在植物繁殖生态学领域的最新研究进展,并探讨将来可能的发展方向。     

Insertional mutagenesis in Drosophila. II. P element mediated transformation of Drosophila yakuba.

Drosophila yakuba, a member of melanogaster subgroup being free of P element, acquired resistance to an antibiotic neomycin by the transformation utilizing P element. In this species, the transformation frequency was comparable to that of D. melanogaster. Further, the occurrence of 8 base pairs duplication upon the insertion of the element was confirmed. These facts suggest that the P element could be inserted into the genome in the same manner, even in D. yakuba. Any consensus for preferential insertion could not be found on the nucleotide sequence as in D. melanogaster. However, it is noticeable that a series of the short palindromic stretches was common around the insertion sites in both species. It suggests that a structural feature of DNA plays a role as a landmark for P element insertion.     

Introduction of a functional P element into the germ-line of Drosophila hawaiiensis

When a plasmid carrying a P-transposable element (derived from Drosophila melanogaster) is injected into young embryos of D. hawaiiensis, the P-element sequence from the plasmid transposes into the germ-line chromosomes. The introduction of this P element into D. hawaiiensis provides an opportunity to study the behavior of the transposable element in a novel context. Germ-line transposition and numerical increase of the P elements are readily detected in D. hawaiiensis. Thus these aspects of P-element function do not require chromosomal or cytoplasmic properties that are unique to D. melanogaster. Since D. hawaiiensis is among those Drosophila that are most distantly related to D. melanogaster, these results suggest that P-element-mediated transformation may function in many species.     

Repression of Hybrid Dysgenesis in Drosophila Melanogaster by Individual Naturally Occurring P Elements

Individual P elements that were genetically isolated from wild-type strains were tested for their abilities to repress two aspects of hybrid dysgenesis: gonadal dysgenesis and mutability of a double-P element-insertion allele of the singed locus (sn(w)). These elements were also characterized by Southern blotting, polymerase chain reaction amplification and DNA sequencing. Three of the elements were 1.1-kb KP elements, one was a 1.2-kb element called D50, and one was a 0.5-kb element called SP. These three types of elements could encode polypeptides of 207, 204, and 14 amino acids, respectively. Gonadal dysgenesis was repressed by two of the KP elements (denoted KP(1) and KP(6)) and by SP, but not by the third KP element (KP(D)), nor by D50. Repression of gonadal dysgenesis was mediated by a maternal effect, or by a combination of zygotic and maternal effects generated by the P elements themselves. The mutability of sn(w) was repressed by the KP(1) and KP(6) elements, by D50 and by SP, but not by KP(D); however, the SP element repressed sn(w) mutability only when the transposase came from complete P elements and the D50 element repressed it only when the transposase came from the modified P element known as Δ2-3. In all cases, repression of sn(w) mutability appeared to be mediated by a zygotic effect of the isolated P element. Each of the isolated elements was also tested for its ability to suppress the phenotype of a P-insertion mutation of the vestigial locus (vg(21-3)). D50 was a moderate suppressor whereas SP and the three KP elements had little or no effect. These results indicate that each isolated P element had its own profile of repression and suppression abilities. It is suggested that these abilities may be mediated by P-encoded polypeptides or by antisense P RNAs initiated from external genomic promoters.     

A simulation of P element horizontal transfer in Drosophila

Experimental data suggest that the P transposable element has invaded the Drosophila melanogaster genome after a horizontal transfer from the phylogenetically distant species Drosophila willistoni. The differences between P element phylogeny and that of the Drosophila genus could in part be explained by horizontal transfers. In vivo experiments show that P elements are able to transpose in the genomes of other Drosophila species. This suggests that horizontal transmission of P elements could have taken place in many species of this genus. The regulation, transposition, and deleterious effects of the P element in D. melanogaster were formalized and integrated in a global model to produce a simulation program that simulates a P element invasion. The simulations show that our knowledge of the P element in D. melanogaster can explain its behavior in the Drosophila genus. The equilibrium state of the invaded population of a new species depends on its ability to repair damage caused by P element activity. If repair is efficient, the equilibrium state tends to be of the P type state, in which case the element could subsequently invade other populations of the species. Conversely, the equilibrium state is of the M′ type state when the ability to repair damage is low. The invasion of the P element into other populations of this new species can then only occur by genetic drift and it is likely to be lost. The success of a P element invasion into a new species thus greatly depends on its ability to produce dysgenic crosses. This revised version was published online in August 2006 with corrections to the Cover Date.     

Evidence for Horizontal Transmission of the P Transposable Element between Drosophila Species

Several studies have suggested that P elements have rapidly spread through natural populations of Drosophila melanogaster within the last four decades. This observation, together with the observation that P elements are absent in the other species of the melanogaster subgroup, has lead to the suggestion that P elements may have entered the D. melanogaster genome by horizontal transmission from some more distantly related species. In an effort to identify the potential donor in the horizontal transfer event, we have undertaken an extensive survey of the genus Drosophila using Southern blot analysis. The results showed that P-homologous sequences are essentially confined to the subgenus Sophophora. The strongest P hybridization occurs in species from the closely related willistoni group. A wild-derived strain of D. willistoni was subsequently selected for a more comprehensive molecular examination. As part of the analysis, a complete P element was cloned and sequenced from this line. Its nucleotide sequence was found to be identical to the D. melanogaster canonical P, with the exception of a single base substitution at position 32. When the cloned element was injected into D. melanogaster embryos, it was able to both promote transposition of a coinjected marked transposon and induce singed-weak mutability, thus demonstrating its ability to function as an autonomous element. The results of this study suggest that D. willistoni may have served as the donor species in the horizontal transfer of P elements to D. melanogaster.     

Distribution of transposable elements in neotropical species of Drosophila

The phylogenetic distribution of transposable families, P, gypsy, hobo, I, and mariner has been analyzed in 33 species of 11 groups of neotropical Drosophila and a Drosophilidae species Zygotrica vittimaculosa, using squash blot and dot blot. Genomic DNA of almost all neotropical species tested hybridized with gypsy probe and some species showed a particularly strong hybridization signal, as D. gaucha, D. virilis, and species of flavopilosa group. The hobo element was restricted to melanogaster group and some strains of D. willistoni. Only D. simulans DNA showed hybridization to mariner probe in all species tested and D. simulans and D. melanogaster showed hybridization with I element probe. P element homologous sequence was present in D. melanogaster and all species and strains of the willistoni and saltans groups tested. The presence of at least one P-homologous sequence was detected in Drosophila mediopunctata. This one was the only P-bearing species of all six tested from the tripunctata group. Four different pairs of primers homologous to segments of the canonical sequence of D. melanogaster's P were used to amplify specific sequences from D. mediopunctata DNA, showing the occurrence of seemingly well-conserved P-homologous sequences. This revised version was published online in July 2006 with corrections to the Cover Date.