Differential gene expression profiles associated with heavy metal tolerance in the soil insect Orchesella cincta

Field-selected tolerance to heavy metals has been reported for Orchesella cincta (Arthropoda: Collembola, springtails) populations occurring at metal-contaminated mining sites. Metal tolerance in O. cincta is correlated with heritable increase of excretion efficiency, decrease in cadmium-induced growth reduction, and over-expression of the single copy metallothionein (mt) gene. Although mt plays a major role in cadmium (Cd) detoxification an additional number of gene products may be altered in the tolerant phenotype that influence quantitative traits like excretion efficiency and growth. Using suppression subtractive hybridization analysis (SSH) genes were cloned that showed up- or down-regulation in response to Cd. This study reports about 192 SSH derived cDNA clones, of which 49 were confirmed to be differentially expressed after spot blot analysis. After sequence analysis 19 of the 49 differential clones could be annotated. Real-time RT-PCR of a reference culture and tolerant populations revealed significant gene responses upon Cd exposure. The reference culture showed stress induced gene expression, whereas the tolerant animals maintained normal gene expression or down regulation of cDNAs upon Cd exposure. Seven cDNAs with homology to genes involved in cell signaling, transport and programmed cell death showed an interaction between treatment and population.     

Investigating the molecular basis of local adaptation to thermal stress: population differences in gene expression across the transcriptome of the copepod Tigriopus californicus

ABSTRACT: BACKGROUND: Geographic variation in the thermal environment impacts a broad range of biochemical and physiological processes and can be a major selective force leading to local population adaptation. In the intertidal copepod Tigriopus californicus, populations along the coast of California show differences in thermal tolerance that are consistent with adaptation, i.e., southern populations withstand thermal stresses that are lethal to northern populations. To understand the genetic basis of these physiological differences, we use an RNA-seq approach to compare genome-wide patterns of gene expression in two populations known to differ in thermal tolerance. RESULTS: Observed differences in gene expression between the southern (San Diego) and the northern (Santa Cruz) populations included both the number of affected loci as well as the identity of these loci. However, the most pronounced differences concerned the amplitude of upregulation of genes producing heat shock proteins (Hsps) and genes involved in ubiquitination and proteolysis. Among the hsp genes, orthologous pairs show markedly different thermal responses as the amplitude of hsp response was greatly elevated in the San Diego population, most notably in members of the hsp70 gene family. There was no evidence of accelerated evolution at the sequence level for hsp genes. Among other sets of genes, cuticle genes were up-regulated in SD but down-regulated in SC, and mitochondrial genes were down-regulated in both populations. CONCLUSIONS: Marked changes in gene expression were observed in response to acute sub-lethal thermal stress in the copepod T. californicus. Although some qualitative differences were observed between populations, the most pronounced differences involved the magnitude of induction of numerous hsp and ubiquitin genes. These differences in gene expression suggest that evolutionary divergence in the regulatory pathway(s) involved in acute temperature stress may offer at least a partial explanation of population differences in thermal tolerance observed in Tigriopus.     

Clonal variation for tolerance to polyethylene glycol-induced water stress in cultured tomato cells

Cell clones were isolated from a population of cultured tomato (Lycopersicon esculentum Mill cv VFNT-cherry) cells and their tolerance to polyethylene glycol (PEG)-induced water stress was measured. Considerable variation for tolerance among the clones was found. Tolerance differences between clones appeared to be spontaneous and were different from tolerance differences between adapted and unadapted cells. Unlike adapted (selected by exposure to PEG) cells, cell clones retained their relative tolerance for many generations in the absence of selection pressure, and tolerance of both relatively tolerant and intolerant clones was very dependent on growth cycle stage and inoculum density. Analysis of subclones isolated from relatively tolerant and intolerant parent clones revealed that each parent clone gives rise to progeny with tolerances near the mean tolerance of both parents. However, progeny populations of both tolerant and intolerant parents are enriched with individuals with phenotypes nearer the mean response of their respective parent populations. When exposed to PEG, relatively tolerant and intolerant clones alike become adapted to the level of PEG to which they are exposed, and have the same phenotypic level of tolerance. Thus, selection by exposure to stress is unable to discriminate (on the basis of growth) between the innately tolerant and intolerant cell types within the population. This is indicated also by the fact that clones isolated from a population of cells adjusted to growth on 25% PEG do not show an enriched frequency of tolerant phenotypes when grown in the absence of PEG compared to the nonselected normal cell population which has never been adjusted to growth on PEG.     

Field-selected cadmium tolerance in the springtail Orchesella cincta is correlated with increased metallothionein mRNA expression

Populations of the springtail Orchesella cincta that live in metal contaminated soils have developed tolerance to cadmium by increased metal retention in the midgut epithelium and excretion at every moult. Regulation of the MT gene was studied in a tolerant population (Plombières, Belgium) and a laboratory culture. Animals were exposed to a range of concentrations of cadmium in the food (0-1.5 microM Cd/g food). RNA was extracted after 5-14 days of cadmium exposure and used for Northern blot analysis to quantify MT mRNA. MT expression levels were significantly higher (p <0.01) in individuals from laboratory-raised strains originating from the soils of the metal contaminated forest Plombières (2.4- to 7.8-fold expression) compared to the reference population (1.5- to 2.4-fold expression). No variable sites were found in the complete MT coding sequence. Southern blot analysis suggests that in both populations the gene is not tandemly repeated. This is the first evidence of evolution of metal tolerance via gene regulation of MT in a natural population. These data indicate a higher fitness of the tolerant population in the polluted environment due to selection of high MT expression phenotypes.     

Analysis of Differential Expression of Barley ESTs during Cold Acclimatization Using Microarray Technology

Abstract: Genomics adds a new dimension to genetic analysis, shifting the focus from the study of a single gene to the whole genome. We have successfully applied the genomics approach based on microarray to the study of genes involved in barley responses to cold stress. About 900 EST clones from barley were obtained from a cDNA library of cold acclimatized leaves of cv. Nure and arrayed, and gene expression analysis done on cold acclimatized vs. control plants. The system allowed for reliable detection of differences in mRNA expression levels, and was confirmed by the finding that numerous previously reported cold-related genes were differentially expressed in treated and untreated plants when evaluated in our arrays. The expression profiles of a sample of genes analysed by the array were confirmed by quantitative RT-PCR.
Previously, identification of novel plant genes was achieved considering a few genes at a time; now many genes can be found as up- or down-regulated based on a one step procedure. Many of the genes we found to be up- or down-regulated do not have an assigned function. This includes 15 of the 78 up-regulated and 8 of the 45 down-regulated clones. Our results add new genes to the group of cold-regulated genes and provide the opportunity to better understand the complex mechanism of stress tolerance.     

Additive genetic variation of transcriptional regulation: metallothionein expression in the soil insect Orchesella cincta

Field-selected metal tolerance in Orchesella cincta is correlated with overexpression of the single copy cadmium (Cd) inducible metallothionein (mt). Previously, we have demonstrated large phenotypic variation in mt gene expression, and a higher frequency of high-expression phenotypes in a tolerant population. Here, we describe midparent-offspring regression analysis of mt gene expression in a laboratory culture originating from a noncontaminated natural population. Families were either not exposed (n=47) or exposed to 0.5 micromol Cd per gram dry food (n=46). Mean mt gene expressions normalized to 28S rRNA and beta-actin RNA were generated using real-time RT-PCR applied to parents and offspring RNA and subjected to regression analysis. A significant heritability (h2) for mt gene expression was estimated between 0.36 (beta-actin normalized) and 0.46 (28S normalized) in Cd exposed families. Nontreated families did not yield a significant h2 value. Restriction Fragment Length Polymorphism analysis of the metallothionein promoter sequence revealed eight promoter alleles that show structural variation. Three alleles show increased frequencies in families with high mt expression. Another gene, croquemort (isolated from a differential screening for 1 micromole Cd treatment) showed no h2 of gene expression in response to 0.5 micromol Cd. This gene codes for a receptor-protein involved in recognition of apoptotic cells and may participate in the general stress response. The present data suggest that evolution of metal tolerance in O. cincta can occur in the field by selection for high mt expression due to structural changes in mt cis-regulation.     

Acclimation to lead in the freshwater isopod Asellus aquaticus

Summary Some populations of the isopod Asellus aquaticus from polluted rivers are tolerant to lead. Here it is shown that nontolerant animals from an unpolluted site can be made tolerant by laboratory exposure to low levels of the metal, and it is suggested that naturally occurring tolerance may be achieved by acclimation.     

马蔺根系响应Cd胁迫的miRNA高通量测序分析

为了解Cd胁迫下马蔺﹝Iris lactea var. chinensis ( Fisch.) Koidz.〕根系miRNA的表达模式,采用高通量测序法对100μmol·L-1 Cd胁迫0(CK)和24 h(Cd)后马蔺根系的sRNA文库(分别为CK和Cd文库)进行分析,筛选出显著差异表达的miRNA,并对这些miRNA的靶基因功能进行预测;在此基础上,采用qRT-PCR技术对部分miRNA及其靶基因的表达模式进行验证。结果表明：在CK和Cd文库中,未注释的sRNA序列较多,分别占各自sRNA特异序列总数的86.4%和80.5%;在已注释的sRNA序列中,miRNA所占比例最低(分别为0.3%和0.5%),而rRNA所占比例最高(分别为9.4%和11.8%);2个文库中的sRNA长度主要为21~24 nt,且均以21 nt为最多。从Cd胁迫下马蔺根系sRNA中共筛选出32个显著差异表达的miRNA,其中20个miRNA表达量下调(分别属于miR165、miR166、miR167、miR168、miR390和miR396家族),12个miRNA表达量上调。功能预测结果表明：这些miRNA靶基因的功能主要集中在生物学过程、细胞组分和分子功能3个方面;而从KEGG通路富集分析看,富集在核糖体、氨基酸生物合成和碳代谢3个通路上的差异表达miRNA的靶基因数分别为122、88和82个。 qRT-PCR验证结果表明：在CK和Cd文库间,11个差异表达miRNA及8个靶基因的相对表达量均有显著差异(P<0.05);其中,11个miRNA相对表达量的上调和下调趋势与上述筛选结果一致,并且miRNA相对表达量上调时,其靶基因的相对表达量下调,反之亦然,说明Cd胁迫条件下马蔺根系的miRNA负调控其靶基因的表达,并且这些靶基因主要参与编码转录因子、HD-ZIP蛋白和信号蛋白等过程。     

基于转录组测序的Cd胁迫下芹菜细胞自噬相关基因的筛选

细胞自噬是植物逆境应答过程中最常见的保护机制之一。动物中,自噬相关基因抵御镉(Cd)毒害的功能研究较清楚,但植物却知之甚少。文中以芹菜品种‘皇后’为试材,采用外源Cd(终浓度为0、2、4、8mg/L)添加营养液水培处理,利用转录组测序(RNA-seq)技术筛选细胞自噬相关差异基因并进行q RT-PCR验证。结果表明Cd胁迫对芹菜植株产生了明显的毒害作用,并与浓度间产生了量效关系。在筛选的8个差异表达的自噬相关基因中,ATG8a、ATG8f、ATG13、AMPK-1、AMPK-2基因随Cd浓度升高表达上调,ATG12、VPS30和VPS34则先上调后下降,说明自噬相关基因可能通过表达上调增加了自噬小体结构以抵御Cd毒性作用;而高浓度Cd(8mg/L)可能超出芹菜的耐受范围,导致多个自噬基因又出现表达下调趋势。以上结果有助于后期自噬相关基因的功能研究,为进一步探讨芹菜对Cd胁迫的耐性机制提供参考依据。