Wheat germ oil in larval diet influences gene expression in adult oriental fruit fly

Culture medium supplemented with wheat germ oil (WGO) causes physiological reactions, such as increased fecundity and mobility, in some insects. Although the impact of WGO on insect physiology is important, the mechanisms of these actions are poorly understood. In this paper, we test the hypothesis that the addition of WGO to medium developed for larval oriental fruit flies modulates gene expression in the corresponding adults. We separately reared larvae of Bactrocera dorsalis on diets lacking or supplemented with WGO, and analyzed for expressed proteins in the resulting adult males and females by 2D-electrophoresis. Analysis of the gels revealed significant changes in expression levels of >70 proteins, 64 of which were identified by mass spectrometric analysis on MALDI-TOF/TOF. Apparent changes in expression levels for 6 of these proteins were confirmed by quantitative real-time PCR, showing that the changes in mRNA expression were reflected in changes in protein expression. These findings support the hypothesis that one mechanism of WGO actions in insect nutrition is the modulation of gene expression.     

Parameters of the chicken genome (Gallus gallus)

As more information on the chicken genome is gathered, it is becoming increasingly more important to be able to correlate genetic and physical maps. Quantitation of the chicken karyotype is important in establishing parameters which define the genome. Here we report on the physical lengths of the chicken macrochromosomes and establish the DNA content of each, thus identifying implicitly how much of the genome is represented by the microchromosomal component. For the first time, genetic and physical data on the chicken karyotype are presented in relation to one another.     

母代高脂饮食诱导子代在小鼠生命早期出现糖脂代谢紊乱且具有雄性易感性

目的：探讨孕期和哺乳期的高脂饮食能否导致子代在生命早期出现糖脂代谢紊乱。方法成年雌性C57BL/6J小鼠与正常饮食雄性小鼠进行交配,孕鼠随机分为高脂饮食组和正常饮食组,在孕期和哺乳期喂养高脂饲料或正常饲料,至交配后第一代鼠断乳时（3周龄）观察其糖脂代谢相关性指标以及肝脏病理表现。结果较正常饮食组子鼠相比,高脂饮食子鼠出生体重更低（ P＜0.05）。在断乳时,高脂饮食组雄性子鼠体重较重（ P ＝0.038）,腹腔糖耐量实验30 min和60 min血糖明显升高（P值分别为＜0.001和＜0.01）,糖耐量曲线下面积较大（P＝0.0016）,HOMA-IR值较大（P＜0.05）,雌性子鼠腹腔糖耐量实验在30 min血糖高于正常组（P＜0.01）,而糖耐量曲线下面积和HOMA-IR值在两组之间无明显统计学意义。雄性和雌性子代小鼠空腹胆固醇水平高脂饮食组均高于正常饮食组（ P值分别为＜0.0001和0.0004）,而两组雄性和雌性子代小鼠空腹胰岛素和甘油三酯水平差异均无显著性（ P均＞0.05）。另外,在断乳时高脂饮食子鼠出现肝脏脂肪变性,雌性和雄性子鼠无明显差异。结论母鼠孕期和哺乳期高脂饮食能够诱导子代在生命早期就能出现糖脂代谢紊乱并且雄性子鼠更易出现肥胖、糖耐量异常、胰岛素抵抗。     

北京油鸡purH基因结构与表达特征研究

提取北京油鸡8种组织的总RNA,利用RT-PCR检测purH基因mRNA的差异表达。将purH基因完整开放阅读框定向插入pEGFP-N3,构建带有GFP报告基因重组表达载体pEGFP-purH,利用脂质体介导法将其导入北京油鸡体外培养细胞中,进行G418药物筛选和克隆化培养。结果表明：北京油鸡purH基因（GenBank 登录号：EU334506）编码区为1782 bp,编码 593 aa的多肽,转染后24 h、48 h和72 h,pEGFP-purH转染率在10.3 %～53.2 %之间,绿色荧光均匀分布于细胞质与细胞核中,随表达量的增加,绿色荧光在细胞核中聚集成团块状或颗粒状。经药物筛选和克隆化培养,获得表达pEGFP-purH融合蛋白的克隆细胞株,RT-PCR与Western blotting检测确认pEGFP-purH已整合到北京油鸡成纤维细胞基因组中,在优化的条件下,阳性细胞凋亡率、生长与增殖状况与对照组比较差异不显著（P 〉0.05）。     

Development of drinking mechanisms in the chicken (Gallus gallus) (Aves)

Summary Development of the drinking mechanism from the day of hatching to the 4 week old chick was studied in relation to the growth of the oropharynx and drinking performance. Results indicate that due to scaling effects in the growing oropharynx, physical factors require the development of extra mechanisms. The swallowing mechanism to transport water from the pharynx into the esophagus during the tip up phase is already present in hatchlings, and does not change during ontogeny. The mechanism for water intake during the immersion phase changes considerably. Hatchlings display pecking behavior towards water. Week old chicks protrude the tongue far out, and the total volume ingested is sucked up by capillary action between the tongue, the floor, and the roof of the oropharynx. In 2 and 3 week old chicks the relative distance over which water is sucked up by capillarity decreases, whereas the volume of water pushed caudad by the tongue and bills increases. Laryngeal suction also develops in this period. At the age of 4 weeks chickens use the adult mechanism to drink. Most oropharyngeal elements increase two to three times in length and width during post hatching ontogeny. Due to these increases, water transport by capillarity alone does not suffice in the older age groups; therefore additional mechanisms such as pressure development by closing the bills and laryngeal suction must develop. Relative to the oropharyngeal length most elements grow isometrically. The width of the lingual alae and the larynx width, however, increase with positive allometry, which improves both capillary action as well as the transport of water during the tip up phase when the chicks grow older. The need to develop extra water transport mechanisms during growth due to scaling effects is shown to condition the radiation capacity of avian drinking mechanisms. Nidicolous birds are, however, not constrained by the need to have a properly operating drinking mechanism during the early ontogeny and may therefore have a better chance of developing alternativ drinking mechanisms then nidifugous birds.     

Systematic identification and characterization of chicken (Gallus gallus) ncRNAs

Recent studies have demonstrated that non-coding RNAs (ncRNAs) play important roles during development and evolution. Chicken, the first genome-sequenced non-mammalian amniote, possesses unique features for developmental and evolutionary studies. However, apart from microRNAs, information on chicken ncRNAs has mainly been obtained from computational predictions without experimental validation. In the present study, we performed a systematic identification of intermediate size ncRNAs (50–500 nt) by ncRNA library construction and identified 125 chicken ncRNAs. Importantly, through the bioinformatics and expression analysis, we found the chicken ncRNAs has several novel features: (i) comparative genomic analysis against 18 sequenced vertebrate genomes revealed that the majority of the newly identified ncRNA candidates is not conserved and most are potentially bird/chicken specific, suggesting that ncRNAs play roles in lineage/species specification during evolution. (ii) The expression pattern analysis of intronic snoRNAs and their host genes suggested the coordinated expression between snoRNAs and their host genes. (iii) Several spatio-temporal specific expression patterns suggest involvement of ncRNAs in tissue development. Together, these findings provide new clues for future functional study of ncRNAs during development and evolution.     

Maternal discrimination of offspring vocalizations in Barbary macaques (Macaca sylvanus)

The response of Barbary macaque (Macaca sylvanus) females to vocalizations of their offspring was studied in a semi-free ranging population. The results of both facal observations and playback experiments demonstrated that mothers preferentially turned to their offspring's vocalizations over those of other young, providing evidence that mothers are able to recognize their offspring by acoustic signals alone. We assume that they may use this ability to monitor their infants' activities.     

Oestrogen regulates the expression of cathepsin E-A-like gene through ER$$\upbeta $$ in liver of chicken ( Gallus gallus)

The cathepsin E-A-like, also known as ‘similar to nothepsin’, is a new member of the aspartic protease family, which may take part in processing of egg yolk macromolecules, due to it was identified in the chicken egg-yolk. Previously, studies have suggested that the expression of cathepsin E-A-like increased gradually during sexual maturation of pullets, but the exact regulation mechanism is poorly understood. In this study, to gain insight into the function and regulation mechanism of the gene in egg-laying hen, we cloned the cathepsin E-A-like gene and evaluated its evolutionary origin by using both phylogenetic and syntenic methods. The mode of the gene expression regulation was analysed through stimulating juvenile hens with \(17\upbeta \)-estradiol and chicken embryo hepatocytes with \(17\upbeta \)-estradiol combined with oestrogen receptor antagonists including MPP, ICI 182,780 and tamoxifen. Our results showed that cathepsin E-A-like was an orthologoues gene with nothepsin, which is present in birds but not in mammals. The expression of cathepsin E-A-like significantly increased in a dose-dependent manner after the juvenile hens were treated with \(17\upbeta \)-estradiol (\(P~<~0.05\)). Compared with the \(17\upbeta \)-estradiol treatment group, the expression of cathepsin E-A-like was not significantly changed when the hepatocytes were treated with \(17\upbeta \)-estradiol combined with MPP (\(P~<~0.05\)). In contrast, compared with the \(17\upbeta \)-estradiol combined with MPP treatment group, the expression of cathepsin E-A-like was significantly downregulated when the hepatocytes were treated with \(17\upbeta \)-estradiol combined with tamoxifen or ICI 182,780 (\(P~<~0.05\)). These results demonstrated that cathepsin E-A-like shared the same evolutionary origin with nothepsin. The expression of cathepsin E-A-like was regulated by oestrogen, and the regulative effect was predominantly mediated through ER-\(\upbeta \) in liver of chicken.     

Brush-like cells within bronchial epithelia of chicken lung (Gallus gallus)

The secondary and primary (mesobronchus) bronchi of chicken lung are lined by a typical respiratory epithelium: pseudostratified columnar ciliated with goblet cells. Up to date, four constituting epithelial cell types have been identified: ciliated, mucosecretory, basal and endocrine cells. In this study a putative new epithelial cell type, the brush-like cell, is described. The avian brush-like cells have only been found in the bronchial epithelia but never in the gas-exchange areas. They are scattered among the other epithelial cells, mainly ciliated cells, and their number is extremely low. The characteristic morphological feature of these cells is an apical protruding cytoplasm with microvilli. This cell type is similar to that found in the lung of some mammalian and non-mammalian species. The functional role of these cells is not yet clear; they could carry out absorptive processes.     

Genetic characterization of Bhutanese native chickens based on an analysis of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), domestic Southeast Asian and commercial chicken lines (Gallus gallus domesticus)

The genetic diversity of Bhutanese chickens needs to be understood in order to develop a suitable conservation strategy for these birds in Bhutan. In this, work, we used microsatellite markers to examine the genetic diversity of Bhutanese chickens. Four Bhutanese chicken varieties (Black plumage, Frizzle, Naked neck and Red Junglefowl-like, corresponding to Yuebjha Narp, Phulom, Khuilay and Seim, respectively), two subspecies of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), two varieties of Thai native chickens (Pradhu Hang Dam and Chee; Gallus gallus domesticus) representing the Southeast Asian domestic chicken, and two commercial lines (Broiler and Single Comb White Leghorn) were genotyped with 18 microsatellites that included 16 loci recommended by the FAO/ISAG for investigations of genetic variability in chickens. All loci were polymorphic, with the number of alleles ranging from six (MCW0111) to 23 (MCW0183). Substantial genetic variation was observed in all populations, with the Bhutanese native chicken Yuebjha Narp (Black plumage chicken) showing the lowest genetic variability. Despite extensive intrapopulation variation, the genetic differentiation among 10 populations was moderate. A neighbor-joining tree revealed the genetic relationships involved while principal component analysis showed that Bhutanese native chickens should be given priority in conservation efforts because of their genetic distinctiveness. Chee chickens are especially valuable as a reservoir of predomestic diversity, as indicated by their greater genetic variation and their position in the phylogenetic tree.     

Molecular evolution of prepro-thyrotropin-releasing hormone in the chicken (Gallus gallus) and its expression in the brain

A cDNA encoding prepro-thyrotropin-relaesing hormone (ppTRH) in chicken (Gallus gallus) was isolated and the sites of expression in the brain were determined. The chicken ppTRH cDNA encodes 260 amino acids, including four TRH progenitor sequences (-Lys/Arg-Arg-Gln-His-Pro-Gly-Lys/Arg-Arg-). It is interesting to note that chicken ppTRH harbors four TRH progenitor-like sequences. According to the hydropathy profile of chicken ppTRH, not only the TRH progenitor sequences but also the TRH progenitor-like sequences are localized in hydrophilic regions. The TRH progenitor-like sequences might be related to structural conservation in the evolution of ppTRH, although they cannot be processed into TRH due to the mutation of several amino acids. According to the alignment of the deduced amino-acid sequences of known vertebrate ppTRHs and the molecular phylogenetic tree we constructed, we speculate on the molecular evolution of ppTRH in vertebrates. In situ hybridization demonstrated experession of the ppTRH gene in the nucleus preopticus periventricularis, nucleus preopticus medialis, regio lateralis hypothalami, paraventricular nucleus, nucleus periventricularis hypothalami, and nucleus ventromedialis hypothalami in the chicken brain.     

Sex inversion in domestic chicken (Gallus gallus domesticus) by letrozole and tamoxifen

In multicellular organisms, determination of sex identity is a complex, multistage process. Sex hormones are synthesized in gonads and fulfill the role of inductors in this process. The effect of androgen is currently well studied. However, the participation of estrogen in the formation of female gonads and female sex on the whole is not much known. Here, we present the results of experimental sex inversion by inhibition of aromatase (an enzyme involved in estrogen synthesis) and tamoxifen (a modulator of estrogen receptors) in chick embryos. It was shown that masculinization depended on the dose of the substance and quantity of injections. Inhibition of aromatase did not block the meiotic prophase in oogoniums. It has been suggested that retinoic acid and estrogens have different mechanisms of effect on oogenesis. Proteins and nucleoproteins interacting with estrogen receptor 1 and their gene localization in human and chicken genomes have been shown for the first time.     

Mitochondrial DNA sequence and haplotype variation analysis in the chicken (Gallus gallus)

Although it is known to be useful for certain genotype:phenotype assignments, our knowledge of the nature and extent of variation in the entire chicken (Gallus gallus) mitochondrial genome (mtGenome) is limited. Here, we used experimental and in silico tools to identify nucleotide variants in the mtGenome, including the coding and non-coding (D-loop) regions. The distribution of the experimentally identified mitochondrial DNA variants in meat- (broilers) and egg-type (White Leghorn) chickens was also assessed. A total of 113 single-nucleotide polymorphisms (SNPs) were identified. The in silico analysis revealed a total of 91 SNPs, with 70 in the coding region and 21 in the non-coding region. Of the 41 experimentally identified SNPs, 27 were in the D-loop. Together, the experimentally identified SNPs in the non-coding region formed 11 haplotypes, whereas the 14 SNPs in the coding region formed 6. Though, 9 of the D-loop region haplotypes were observed only in broilers, 3 of the 6 haplotypes from the coding region occurred at a significantly higher frequency in broilers. To our knowledge, this investigation represents the first whole-mtGenome scan for variation and an evaluation, though limited in sample size, of the haplotype distribution in meat- and egg-type populations, using the SNPs and haplotypes identified.     

Cell number and sex ratio in unfertilized chicken eggs (Gallus gallus domesticus)

In chickens and other birds, females have two different sex chromosomes (ZW), whereas males carry two homologous sex chromosomes (ZZ). The primary sex ratio can thus be determined by genetic analysis of the sex chromosome of the ovum before fertilization. Sex diagnosis is more reliable when there are more cells, i.e. sufficient DNA, for the analysis. In this study, eggs from virgin hens were incubated for 3 days and the number of cells in the germinal discs was counted. A median of 2.5 cells was counted with a range of two to 20 cells. We also counted cells in the germinal discs of unfertilized eggs of inseminated hens and recorded a median of three cells and a range of two to 40 cells. Sex diagnosis based on polymerase chain reaction (PCR) amplification of Z and W chromosomes specific fragments from the CHD1 gene in 30 incubated eggs obtained from 35-week-old virgin hens gave a ratio of 13 Z to 15 W chromosomes with two samples undetermined.The unfertilized eggs of three groups of chickens were subjected to sex diagnosis to supplement the sex ratio data of an incubation experiment (see companion paper). The high proportion of Z chromosomes diagnosed in all three groups by two independent gene products suggests a sex difference on developmental potential and/or a sex chromosome segregation biased toward males in unfertilized eggs especially at the beginning of reproduction.     

Identification of a novel mtDNA lineage B3 in chicken (Gallus gallus domesticus)

DEAR EDITOR, In this study,we sequenced the complete mitochondrial DNA genome (mitogenome) of the Zhengyang Yellow chicken (Gallus gallus domesticus) by next-generation sequencing technology.Samples were taken from Zhumadian city,Henan Province,China.The complete mitogenome was 16 785 bp in size,and had a nucleotide composition of 30.3％ (A),23.7％ (T),32.5％ (C),and 13.5％ (G),with a high AT content of 54.0％.The assembled mitogenome exhibited typical mitochondrial DNA (mtDNA) structure,including a non-coding control region,two rRNA genes,13 protein-coding genes,and 22 tRNA genes.Phylogenetic analysis indicated that this mitogenome defined a novel sub-haplogroup B3 within haplogroup B.These results should provide essential information for chicken domestication and insight into the evolution of genomes.     

Ontogeny of cholinergic and adrenergic cardiovascular regulation in the domestic chicken (Gallus gallus)

Adrenergic and cholinergic tone on the cardiovascular system of embryonic chickens was determined during days 12, 15, 19, 20, and 21 of development. Administration of the muscarinic antagonist atropine (1 mg/kg) resulted in no significant change in heart rate or arterial pressure at any developmental age. In addition, the general cardiovascular depressive effects of hypoxia were unaltered by pretreatment with atropine. In addition, the ganglionic blocking agent hexamethonium (25 mg/kg) did not induce changes in heart rate. The beta-adrenergic antagonist propranolol (3 mg/kg) induced a bradycardia of similar magnitude on all days studied, with a transient hypertensive action on days 19-20, indicating the existence of an important cardiac and vascular beta-adrenergic tone. Injections of the alpha-adrenergic antagonists prazosin or phentolamine (1 mg/kg) reduced arterial pressure significantly on all days of incubation studied. Collectively, the data indicate that embryonic chickens rely primarily on adrenergic control of cardiovascular function, with no contribution from the parasympathetic nervous system.