Cytogenetic analysis of region 2B3-4-2B11 of the X-chromosome of Drosophila melanogaster

About 160 kb of DNA were cloned from the 2B region of the X chromosome, where the early ecdysone puff develops and the ecs locus is located. On the physical map of this sequence the positions of 13 chromosome rearrangement breakpoints interfering with both puff development and the ecs locus proximally and distally, were plotted by means of in situ hybridization. The maximal size of the ecs locus is about 100 kb (between the breakpoint of In(1)Hw ^49c and the proximal end of Df(1)St472) The DNA sequences essential for normal puffing are located within the ecs locus between the In(1)br ^lt103 and Df(1)St472 breakpoints and comprise about 65 kb. Thus the puff develops as a result of ecs activation. Since Df(1)P154, which reduces the puff size and removes the proximal part of the ecs locus, does not prevent puff induction by ecdysone, while removing the distal part of the locus by Df(1)St469 completely stops development of the puff, we conclude that the regulatory zone of the locus, which reacts to hormone is located in the distal parts of both the puff and the locus, proximal to the breakpoint of In(1)br ^lt103 .Since In(1)br ^lt103 , Df(1)pn7b and Df(1)br ^R1 damage ecs but do not prevent puffing it is proposed that there is a second regulatory zone for this locus with a minimal size of 15–20 kb (between the breakpoints of Df(1)br ^R1 and In(1)br ^lt103). After cytogenetic and electron microscopic analysis of 2B puff formation it seems very likely that the site of puff formation is situated in the proximal part of 2B3-4 and after enhancement of ecs expression by hormone it spreads proximally to the 2B6 band which does not puff. When the puff regresses at puff stages (PS)10-11 its material does not condense completely and a zone of residual puffing joins the condensed material located distal to it. This material can give the impression of a separate band, designated 2B5 in Bridges' map. For convenience we propose to call the site giving rise to the puff as 2B3-5.     

Cytogenetic Analysis of Two Ecdysone-Regulated Late Puffs 62C and 62E in Drosophila melanogaster

Genetic analysis has been performed to reveal vital genes around two puffs, a late 62C puff and an early-late 62E puff. Their roles in hormonal regulatory mechanisms have been estimated. A locus represented by four lethal mutations has been found in the vicinity of the 62E puff. The mutants display disturbed puffing, which suggests the involvement of this locus in hormonal regulatory mechanisms. In the 62C puff region, 26 mutations have been found that proved to be allelic to mutations in theD-Titin gene. The giant D-Titin gene is essential for the sarcomeric organization of striated muscles. According to the results of in situ hybridization with polytene chromosomes, the D-Titin gene occupies the entire 62C puff. The phenotypic characteristics of the novel mutants suggest that this protein is polyfunctional, and its role is not restricted to processes in the muscular tissue. It may also be involved in the morphogenesis of leg imaginal disks, and it is necessary for condensation and separation of sister chromatids during mitosis. Mutations in the ecdysone-induced BR-C and E74 genes cause disturbances similar to those found in this study. In addition, mutations of these genes can affect the D-Titin gene activity, which suggests that the three genes are involved in similar morphogenetic and myogenetic processes.     

Cytogenetic and molecular aspects of position effect variegation in Drosophila melanogaster

A new genetic model system for studying position effect variegation in Drosophila melanogaster was found. It allows the analysis of genetic inactivation and changes in chromosome morphology in the same cells. In T(1;2)dor ^var7 strains the 2B5 early ecdysone puff, and the ecs locus which maps in this puff are translocated into the vicinity of centromeric heterochromatin. The ecs locus plays a key role in the system of ecdysone puffs: genetic damage to this locus results in loss of sensitivity of cells to the hormone and, as a consequence, ecdysone-induced puffs do not develop. In the T(1;2)dor ^var7 chromosome the ecs and at least five adjoining loci are inactivated in a variegated fashion. In the salivary gland cells of T(1;2)dor ^var7/ ecs^lt435 0 h prepupae which do not show the ecdysone puffs, the morphology of the 2B region was analysed. In all cases where the ecs locus was inactivated, a dense block of chromatin reminiscent of a solid band was found in the 2B region instead of the four bands 2B1–2, 3–4, 5 and 6. Sometimes compaction of the chromatin reached the 2A1–2 or even 1E1–4 bands. Formation of the compact block of chromatin coincided with late replication in this region. In situ hybridization of polytene chromosomes with a DNA clone from the ecs locus showed that when the dense chromatin block was present, no DNA was accessible for hybridization in 2B5. Hybridization of DNA of another clone located in the region of the translocation breakpoint (2B7–8) was found only in polytene chromosomes of larvae grown at 25° C, and never in those grown at 18° C, independently of the morphology of the 2B5 puff. The possibility that in the case of block formation both late replication and, as a consequence, underreplication of chromosome DNA take place, is discussed.Dedicated to Professor W. Beermann on the occasion of his 65th birthday     

Modeling of Dark Puffs Using P Transposons in Polytene Chromosomes of Drosophila melanogaster

Modeling of morphologically unusual dark puffs was conducted using Drosophila melanogaster strains transformed by construct P[ry; Prat:bw], in which gene brown is controlled by the promoter of the housekeeping gene Prat. In polytene chromosomes, insertions of this type were shown to form structures that are morphologically similar to small puffs. By contrast, the Broad-Complex (Br-C) locus, which normally produce a dark puff in the 2B region of the X chromosome, forms a typical light-colored puff when transferred to the 99B region of chromosome 3R using P[hs-BRC-z1]. A comparison of transposon-induced puffs with those appearing during normal development indicates that these puff types are formed via two different mechanisms. One mechanism involves decompaction of weakly transcribed bands and is characteristic of small puffs. The other mechanism is associated with contacts between bands adjacent to the puffing zone, which leads to mixing of inactive condensed and actively transcribed decondensed material and forming of large dark puffs.     

Two puff-specific proteins bind within the 2.5 kb upstream region of theDrosophila melanogaster Sgs-4 gene

TheDrosophila nuclear proteins Bj6 and Bx42 characterized previously are detected in a series of developmentally active puffs on salivary gland chromosomes. Here the binding of both proteins at puff 3C11-12 containing the glue protein geneSgs-4 is described in more detail. By deletion analysis we show that both proteins bind within a chromosomal segment containing 17–19 kb of DNA surrounding theSgs-4 gene. They are detectable at this site during the intermoult stages, before the puff regresses in response to the moulting hormone ecdysone. If theSgs-4 gene together with flanking DNA sequences is brought into a different chromosomal position by P element transfer, both proteins are detected at this new location. Both proteins are bound to the chromosome within the range of 2.5 kb DNA upstream of theSgs-4 gene. A strain containing a 52 bp deletion within this region fails to bind Bx42 protein suggesting that the missing DNA, which overlaps a hypersensitive region, may be required for the binding of the Bx42 protein.     

Local protein accumulation during gene activation

Relative values for the dry mass in puff-forming regions of Drosophila hydei salivary gland chromosomes were established with a Leitz double beam interference microscope. All measurements were made after RNA digestion.Optical path differences per unit area of the induced puffs 2-48C and 4-81B (temperature induced) and a cytoplasm-free background were recorded. In each of the nuclei used for these measurements, the same procedure was applied to two reference regions in the vicinity of the puff, region 2, 47A-48B and region 4, 81C-82C respectively. For comparison of the dry mass values of a puff region at various time intervals after the onset of puff induction, ratios of the optical path differences of the puff region over that of the reference region were calculated.These ratios were established at 5, 10, 30, 60 and 120 min after the onset of a temperature treatment and compared with the ratio in non-treated animals. From the data it can be concluded that the dry mass in the induced puffs increases gradually up to 30 min. At this time the dry mass ratio for puff 2-48C has reached a value of 150% and that of puff 4-81B, 210%. It is concluded that this increase in dry mass is due almost entirely to a local accumulation of non-histone protein.     

A trans-acting regulatory product necessary for expression of the Drosophila melanogaster 68C glue gene cluster

The mutation I(1)npr-1 is located at cytological location 2B5 on the X chromosome in Drosophila melanogaster. We have found that this mutation causes absence of the normal product of the 2B5 locus and that it has the following phenotypes: the 68C glue puff on the third chromosome does not regress when mutant salivary glands are cultured in the presence of ecdysterone; the three 68C glue protein mRNAs are not synthesized; and a transformed Drosophila strain carrying both a normal resident 68C Sgs-3 gene and an introduced functional Sgs-3 gene with only a few kb of flanking sequences expresses neither Sgs-3 RNA if the I(1)npr-1 mutation is crossed into the stock. Thus the normal product of the I(1)npr11 gene is required for regression of the 68C puff, and the I(1)npr-1 gene product allows expression of the Sgs-3 gene by interacting, either directly or indirectly, with DNA sequences near this glue protein gene.     

The gene for ribosomal protein L25 (rplY) maps at 47.3 min near nalA in Escherichia coli K-12.

Summary A temperature sensitive mutant, termed JE1306, derived from Escherichia coli strain PA3092 was found to have an alteration in the ribosomal protein L25. Crosses with various Hfr strains and transductions with P1kc phage have revealed that the mutation maps at 47.3 min between nalA and fpk, in a region where no ribosomal protein gene has so far been located. The gene affected by this mutation is most probably the structural gene for protein L25 (rplY), because a strain heteromerozygous for the region shows both wild type and mutant forms of protein L25.     

Fine mapping of the human pentraxin gene region on chromosome 1q23

 The 1q21 to 25 region of human chromosome 1 contains genes which encode proteins with immune- and inflammation-associated functions. These include the pentraxin genes, for C-reactive protein (CRP), serum amyloid P (SAP) protein (APCS), and a CRP pseudogene (CRPP1). The region of chromosome 1 containing this cluster is syntenic with distal mouse chromosome 1. We constructed an approximately 1.4 megabase yeast artificial chromosome (YAC) contig with the pentraxin genes at its core. This four-YAC contig includes other genes with immune functions including the FCER1A gene, which encodes the α-subunit of the IgE high-affinity Fc receptor and the IFI-16 gene, an interferon-γ-induced gene. In addition, it contains the histone H3F2 and H4F2 genes and the gene for erythroid α-spectrin (SPTA1). The gene order is cen.-SPTA1-H4F2-H3F2-IFI-16-CRP-CRPP1-APCS-FCER1A- tel. The contig thus consists of a cluster of genes whose products either have immunological importance, bind DNA, or both. Received: 13 December 1995 / 6 February 1996     

TaCOLD1 defines a new regulator of plant height in bread wheat

Plant height is among the most important agronomic traits that influence crop yield. However, in addition to the Rht‐1 alleles, the molecular basis of plant height in bread wheat remains largely unclear. Based on wheat gene expression profiling analysis, we identify a light‐regulated gene from bread wheat, designated as TaCOLD1, whose encoding protein is homologous to cold sensor COLD1 in rice. We show that TaCOLD1 protein is localized to the endoplasmic reticulum (ER) and plasma membrane. Phenotypic analyses show that overexpression of a mutated form of TaCOLD1 (M187K) in bread wheat cultivar Kenong199 (Rht‐B1b) background resulted in an obvious reduction in plant height. Further, we demonstrate that the hydrophilic loop of TaCOLD1 (residues 178–296) can interact with TaGα‐7A (the α subunit of heterotrimeric G protein) protein but not TaGα‐1B, and the mutation (M187K) in TaCOLD1 remarkably enhances its interaction with TaGα‐7A. Physical interaction analyses show that the C‐terminal region of TaGα‐7A, which is lacking in the TaGα‐1B protein, is necessary for its interaction with TaCOLD1. Intriguingly, the C‐terminal region of TaGα‐7A is also physically associated with the TaDEP1 protein (an atypical Gγ subunit). Significantly, we discover that TaCOLD1 and mTaCOLD1 (M187K) can interfere with the physical association between TaGα‐7A and TaDEP1. Together, this study reveals that TaCOLD1 acts as a novel regulator of plant height through interfering with the formation of heterotrimeric G protein complex in bread wheat and is a valuable target for the engineering of wheat plant architecture.     

Local protein accumulation during gene activation

Measurements of the integrated absorbancy of naphthol yellow S binding to protein (430 nm) and Feulgen-stained DNA (550 nm) of two puff regions in Drosophila hydei polytene chromosomes revealed a significant increase in the naphthol yellow S binding capacity during the first 5 min of puff induction. The ratio of integrated absorption values at 430 and 550 nm of two chromosome regions, 2-48 C and 4-81 B were determined relative to the ratio of absorption values at 430 and 550 nm of a reference band. These determinations were carried out in a non-puffed state and at 5, 10, 30, 60 and 120 min after onset of a temperature treatment inducing puffs in these regions. The quotient of the absorption ratio of the puff region and the ratio of the reference band provides a relative measure for naphthol yellow S binding to protein. The staining reaction was absent after pronase treatment.—The relative increase in naphthol yellow S binding was most obvious during the first 5 min after onset of puff induction. The binding of naphthol yellow S was increased by a factor 1.7 for puff 2-48 C, and a factor 1.9 for puff 4-81 B. The maximum value, indicating a relative increase by a factor 1.8 in puff 2-48 C and a factor 2.2 in puff 4-81 B was attained in both puffs at 30 min after onset of puff induction.—Among staining procedures performed on sulphydryl groups, free -amino acids and indole groups of tryptophane, only a positive result with the staining reaction on the indole groups was obtained for induced puffs.—Injection of tritiated sodium acetate, methionine-H³-methyl, ethionine-H³-ethyl, C¹⁴-sodium bicarbonate, a mixture of 15 H³-labelled L-amino acids and H³-tryptophane at various time intervals prior to puff induction failed to result in a specific incorporation of any of these radioactive substances into newly induced puffs.     

Cytogenetical analysis of the 2B3-4-2B11 region of the X chromosome of Drosophila melanogaster

Summary Of 13 ecs mutations, which affect female fertility, as revealed by complementation analysis, 7 are chromosome rearrangements involving the br complementation group. The other six show no cytologically detectable rearrangements and behave as completely or partially noncomplementing ecs alleles. All viable combinations of these 13 mutations were characterized by partial or complete female sterility. Viable heterozygotes carrying any of these mutations and the rearrangements Df(1)sta, T(1,3)sta, Df(1)St490, previously localized distal to the ecs locus, were also sterile. Using deletions and an electrophoretic mobility variant from the Staket strain, a minor chorion gene S70 has been mapped. It had been thought this gene was located in the 2B3-5 region, and corresponded to the ecs locus. However, in the present study, this gene was shown to map in the region removed by Df(1)sta (1E1-2-2B3-4) but outside that removed by Df(1)At127 (1E1-2-2A1-2), i.e. within the 2A1-2-2B3-4 region which is distal to the ecs locus. Rearrangements and point mutations at the ecs locus that result in female sterility had no effect on synthesis of the chorion protein s70. It may therefore be suggested that the chorion protein gene is not functionally associated with the ecs locus and that sterility is caused not by disruptions of the chorion protein gene but by lesions in the ecs gene itself. Thus, an ecs product, which controlls cell sensitivity to ecdysterone is also necessary for female fertility. Data on the locations of lesions affecting female fertility indicate that at least two elements at the ecs locus are essential for this function: a cis-acting distal zone with no effect on viability and a sequence within the essential part of the ecs locus. A defect in either of these zones or their separation by chromosomal rearrangement leads to female sterility.     

Arabidopsis thaliana small subunit leader and transit peptide enhance the expression ofBacillus thuringiensis proteins in transgenic plants

The expression of the modified gene for a truncated form of thecryIA(c) gene, encoding the insecticidal portion of the lepidopteran-active CryIA(c) protein fromBacillus thuringiensis var.kurstaki (B.t.k.) HD73, under control of theArabidopsis thaliana ribulose-1,5-bisphosphate carboxylase (Rubisco) small subunitats1A promoter with and without its associated transit peptide was analyzed in transgenic tobacco plants. Examination of leaf tissue revealed that theats1A promoter with its transit peptide sequence fused to the truncated CryIA(c) protein provided a 10-fold to 20-fold increase incryIA(c) mRNA and protein levels compared to gene constructs in which the cauliflower mosaic virus 35S promoter with a duplication of the enhancer region (CaMV-En35S) was used to express the samecryIA(c) gene. Transient expression assays in tobacco protoplasts and the whole plant results support the conclusion that the transit peptide plus untranslated sequences upstream of that region are both required for the increase in expression of the CryIA(c) protein. Furthermore, the CaMV-En35S promoter can be used with theArabidopsis ats1A untranslated leader and transit peptide to increase expression of this protein. While subcellular fractionation revealed that the truncated CryIA(c) protein fused to theats1A transit peptide is located in the chloroplast, the increase in gene expression is independent of targeting of the CryIA(c) protein to the chloroplast. The results reported here provide new insight into the role of 5 untranslated leader sequences and translational fusions to increase heterologous gene expression, and they demonstrate the utility of this approach in the development of insect-resistant crops.     

鲤疱疹病毒II型ORF25B编码蛋白诱饵载体的构建及其互作蛋白的筛选

【目的】鲤疱疹病毒Ⅱ型(Cyprinid herpesvirus 2,CyHV-2)感染养殖鲫引起的鲫造血器官坏死病,给鲫养殖业造成了重大的经济损失。揭示CyHV-2感染宿主细胞的机制,是建立鲫造血器官坏死病有效防治技术的重要基础。【方法】本研究针对CyHV-2富含抗原表位的ORF25B区域设计引物,扩增ORF25B基因截短序列。将扩增产物克隆至酵母双杂交诱饵载体pGBKT7,构建诱饵载体pGBKT7-tORF25B,转化至酵母菌株Y2HGold中。在营养缺陷型培养基上,验证诱饵表达载体pGBKT7-tORF25B对酵母菌Y2HGold自激活现象和毒性作用。利用酵母双杂交技术,将诱饵菌株pGBKT7-tORF25B/Y2HGold与鲫脑组织细胞系(GiCB)cDNA文库杂交。【结果】ORF25B基因截短序列扩增大小约为981 bp,成功构建了诱饵菌株pGBKT7-tORF25B/Y2H Gold,自激活和毒性验证结果表明,诱饵表达载体对酵母菌株无自激活现象,也无毒性作用,初步筛选出4种与tORF25B基因编码蛋白互作的宿主蛋白。【结论】本研究结果为深入开展CyHV-2 ORF25B编码蛋白功能及病毒入侵宿主细胞的机制研究奠定了重要基础。     

饵料蛋白水平对德国小蠊肠道细菌群落的影响

昆虫肠道微生物在宿主营养代谢、生长发育、免疫以及抵御病原菌等方面具有重要作用。研究不同蛋白水平饵料饲养对德国小蠊（Blattella germanica）雄成虫肠道细菌群落组成及其功能的作用，探究德国小蠊肠道细菌对宿主营养和健康的影响，以期为发展生物防治的诱食性饵料提供理论支持。分别取连续饲喂低蛋白（LP2组：5%）、高蛋白（HP3组：65%）以及正常蛋白水平饵料（CD1组：25%）21 d的德国小蠊雄成虫，饥饿24 h后无菌条件下分离并提取肠道总基因组DNA，采用特异引物扩增细菌16S rDNA的V4可变区并进行高通量测序，分析德国小蠊肠道细菌群落组成及其功能特征。结果表明德国小蠊肠道细菌主要由拟杆菌门（Bacteroidetes）、变形菌门（Proteobacteria）、梭杆菌门（Fusobacteria）和厚壁菌门（Firmicutes）等细菌群落组成。饲喂低蛋白饵料LP2组的德国小蠊肠道细菌中拟杆菌属（Bacteroides）细菌丰度（47.44%）显著高于HP3组（23.97%）和对照CD1（7.04%）。饲喂高蛋白饵料的HP3组梭杆菌门丰度显著高于其他两组。LEfSe物种差异分析也表明HP3组德国小蠊肠道细菌中梭杆菌属（Fusobacterium）细菌与低蛋白饵料LP2组和对照CD1组有显著差异。基于Tax4Fun功能预测显示，HP3高蛋白饵料组的德国小蠊肠道细菌中与能量代谢功能相关基因的相对丰度极显著高于对照组CD1组，外源性物质代谢与降解和其他氨基酸代谢功能基因的相对丰度显著高于低蛋白LP2组。本研究结果表明饵料中蛋白质水平的差异能够显著改变德国小蠊肠道中细菌群落结构组成，并影响其代谢功能。