{"content"=>"AP-1 (bZIP) Transcription Factors as Potential Regulators of Metallothionein Gene Expression in .", "i"=>{"content"=>"Tetrahymena thermophila"}} (original) (raw)
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MTT2, a copper-inducible metallothionein gene from Tetrahymena thermophila
Comparative Biochemistry and Physiology C-toxicology & Pharmacology, 2008
Metallothioneins (MTs) are ubiquitous, cysteine-rich, metal-binding proteins whose transcriptional activation is induced by a variety of stimuli, in particular heavy metals such as cadmium, copper and zinc. Here we describe the sequence and organization of a novel copper-inducible metallothionein gene (MTT2) from Tetrahymena thermophila. Based on its deduced sequence, the gene encodes a protein 108 amino acids, containing 29 cysteine residues (30%) arranged in motifs characteristic of vertebrate and invertebrate MTs. We demonstrate that the 5′-region of the MTT2 gene can act as an efficient promoter to drive the expression of heterologous genes in the Tetrahymena system. In the latter case, a gene for a candidate vaccine antigen against Ichthyophthirius multifiliis, a ubiquitous parasite of freshwater fish, was expressed at high levels in transformed T. thermophila cell lines. Moreover, the protein was properly folded and targeted to the plasma membrane in its correct threedimensional conformation. This new copper-inducible MT promoter may be an attractive alternative to the cadmium-inducible MTT1 promoter for driving ectopic gene expression in Tetrahymena and could have a great impact on biotechnological perspectives.
Heredity, 2006
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 midparentoffspring regression analysis of mt gene expression in a laboratory culture originating from a noncontaminated natural population. Families were either not exposed (n ¼ 47) or exposed to 0.5 mmol Cd per gram dry food (n ¼ 46). Mean mt gene expressions normalized to 28S rRNA and b-actin RNA were generated using real-time RT-PCR applied to parents and offspring RNA and subjected to regression analysis. A significant heritability (h 2 ) for mt gene expression was estimated between 0.36 (b-actin normalized) and 0.46 (28S normalized) in Cd exposed families. Nontreated families did not yield a significant h 2 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 mmole Cd treatment) showed no h 2 of gene expression in response to 0.5 mmol 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. Heredity (2006) 96, 85-92.
Gene, 2008
We report the cloning and characterization of two new metallothionein (MT) genes (TrosMTT1 and TrosMTT2), isolated as cDNAs, from the ciliated protozoa Tetrahymena rostrata. The TrosMTT1 inferred protein has been identified as a CdMT and included into the 7a subfamily of Tetrahymena MTs, while TrosMTT2 has been identified as a CuMT (including it into 7b subfamily), due to its similarity to TpigMT-2 and its significant induction by copper. TrosMTT1 protein sequence reveals a remarkably regular and hierarchical modular organization, as it is known for other Tetrahymena CdMTs, showing a bi-modular structure. TrosMTT2 presents a structural organization based on CKCX 2-5 CKC repeats, like it occurs in other Tetrahymena CuMTs, indicating that an evolutionary history based on intra-gene duplications might be also possible. Both are also multi-stress-inducible genes because they are induced by other heavy metals and stressors, as it has been shown by quantitative real-time RT-PCR. It is the first time that the gene expression of a putative Tetrahymena CuMT is analyzed by quantitative PCR, confirming it as a CuMT. These two new Tetrahymena MTs complete, at present, the actual view of this protein superfamily, and corroborate the unique features of ciliate MTs. Furthermore, both, a comparative analysis of relative gene expression values obtained by quantitative RT-PCR on other Tetrahymena MT genes and an analysis of the different Tetrahymena MTs based on the different Cys clusters of these proteins are carried out, which show an update view of Tetrahymena MT gene family.
BMC genomics, 2016
Ciliate metallothioneins (MTs) are included in family 7 of the MT superfamily. This family has been divided into two main subfamilies: 7a or CdMTs and 7b or CuMTs. All ciliate MTs reported have been isolated from different Tetrahymena species and present unique features with regard to standard MTs. Likewise, an expression analysis has been carried out on some of MT genes under metal stress, corroborating their classification into two subfamilies. We isolated 21 new cDNAs from different Tetrahymena species to obtain a wider view of the biodiversity of these conserved genes. Structural analysis (cysteine patterns) and an updated phylogenetic study both corroborated the previous classification into two subfamilies. A new CuMT from a Tetrahymena-related species Ichthyophthirius multifiliis was also included in this general analysis. We detected a certain tendency towards the presentation of a CdMT tri-modular structure in Borealis group species with respect to Australis group. We report...
Metal Interaction and Regulation of Tetrahymena pigmentosa Metallothionein Genes
Protist, 2002
The patterns of expression of two metallothionein (MT) genes, MT-1 and MT-2, previously identified as Cd-MT and Cu-MT, were analysed in Tetrahymena pigmentosa in response to metal inducers cadmium, copper and zinc and to a mixture of copper and cadmium at appropriate concentrations. Cotreatment induces synergistic accumulation of both metals and higher expression of MT-mRNAs in the first few hours. mRNA levels were observed not to completely correlate with MT-protein levels, suggesting that post-transcriptional regulation may be involved in MT induction. MT-1 is induced to higher levels than MT-2. Zinc does not induce any MT expression. The lowest level of mRNA was observed for MT-2, induced only by copper. Cadmium is a powerful inducer of the MT-1 gene, although a very low transcription rate by copper occurs in the first hour.
International Journal of Molecular Sciences, 2017
Metallothioneins (MTs) are low-molecular-mass, cysteine-rich, metal binding proteins. In most animal species, they are involved in metal homeostasis and detoxification, and provide protection from oxidative stress. Gastropod MTs are highly diversified, exhibiting unique features and adaptations like metal specificity and multiplications of their metal binding domains. Here, we show that the MT gene of Biomphalaria glabrata, one of the largest MT genes identified so far, is composed in a unique way. The encoding for an MT protein has a three-domain structure and a C-terminal, Cys-rich extension. Using a bioinformatic approach involving structural and in silico analysis of putative transcription factor binding sites (TFBs), we found that this MT gene consists of five exons and four introns. It exhibits a regulatory promoter region containing three metal-responsive elements (MREs) and several TFBs with putative involvement in environmental stress response, and regulation of gene expres...
Gene, 2007
A novel cadmium inducible metallothionein (TMCd1) gene has been identified and sequenced from the locally isolated ciliate, Tetrahymena tropicalis lahorensis from industrial effluents. The TMCd1 gene encodes 471 nucleotides, with TGA as the stop codon and TAA coding for glutamine. This new gene is quite different from the previously reported MT genes in Tetrahymena pyriformis and Tetrahymena pigmentosa. However, it shows 78% homology with four different Cd-MT genes reported from Tetrahymena thermophila. A TATA box is located in the 5′ flanking region at nucleotide 34-38 upstream region of ATG. The TMCd1 gene is intronless like many other genes isolated from Tetrahymena species. The amino acids sequence of TMCd1 has a special feature of three CCCX 6 CCX 6 CCCX 6 CC and two CCX 6 CXCX 2 CXCC intragenic tandem repeats with a conserved structural pattern of cysteine. The translated protein of TMCd1 contains 30.12% cysteine residues, which is a characteristic of a typical Tetrahymena Cd inducible MT genes. On the basis of 78% homology of nucleotide sequence of genomic DNA and its cDNA, TMCd1 has been considered as a new gene being reported from Tetrahymena tropicalis from this part of the world.
Protist, 2003
The structure of four new MT (metallothionein) genes of Tetrahymena thermophila and T. pigmentosa were characterized. The MT-2 genes from the two species are very similar, differing by 10 out of 2259 sequenced nucleotides, and the deduced amino acid sequences are identical. The MT-1 genes from T. pigmentosa and T. thermophila are also very similar, differing only by 3 nucleotides in the 5′-UT region. The promoter regions contain a TATA box and many stretches partially matching some regulatory elements such as metal-responsive (MREs), antioxidant-responsive (AREs), a CAAT box, a Gbox, and AP1 and ACE-1 binding sites. The related coding and amino acid sequences were compared with those previously sequenced in Tetrahymena. This analysis revealed two independent events of duplication occurring in Cd-(MT-1 and MTT1) and Cu-(MT-2) induced MTs. This evolutionary pathway also explains the unusual length of these proteins, which are much longer than many MTs studied so far. Additionally, the orthology and paralogy relationships of the various MTs are presented. Finally, on the basis of phylogenetic analyses of Tetrahymena MTs, two evolutionary hypotheses are proposed.