Complete mitochondrial genome sequence of the phytopathogenic fungus Penicillium digitatum and comparative analysis of closely related species

The complete mitochondrial genome of Penicillium digitatum (Pers.:Fr) Sacc is reported, the first time in a phytopathogenic Penicillium species. Comparative analysis revealed its close relationship to mitochondrial genomes of other Penicillium and Aspergillus species, both in gene content and in arrangement. The intron content of protein coding genes revealed several differences. The different exon-intron organization of Cytochrome Oxidase Subunit 1 genes indicated their common origin before the divergence of Penicillium and Aspergillus, and that, largely, their introns were transmitted vertically.     

球孢白僵菌线粒体序列分析及系统进化树构建

线粒体是真核细胞的重要的细胞器,在细胞能量代谢和细胞衰老方面扮演了重要角色,同时也是研究物种进化关系的重要资源。本文应用球孢白僵菌的线粒体序列分析了白僵菌与粪壳菌纲其他11属的13种真菌间的进化关系,为阐明球孢白僵菌的进化地位提供了新的论据。线粒体编码的rnl,rns,25个tRNAs和14个蛋白质基因均由同一条链编码,大部分的tRNA分布为三个tRNA簇,这与粪壳菌纲的其他物种相似。与NCBI上公布的序列比对发现球孢白僵菌线粒体序列与蝇蚧霉线粒体序列最相似,相似率达73%,用14个蛋白编码基因通过邻接法(Neighbor-joint)和最大简约法(Maximum parsimony)构建的系统进化树也得到相同结论,其支持率均为100%。     

The mitochondrial genome of the thermal dimorphic fungus Penicillium marneffei is more closely related to those of molds than yeasts

We report the complete sequence of the mitochondrial genome of Penicillium marneffei, the first complete mitochondrial DNA sequence of a thermal dimorphic fungus. This 35 kb mitochondrial genome contains the genes encoding ATP synthase subunits 6, 8, and 9 (atp6, atp8, and atp9), cytochrome oxidase subunits I, II, and III (cox1, cox2, and cox3), apocytochrome b (cob), reduced nicotinamide adenine dinucleotide ubiquinone oxireductase subunits (nad1, nad2, nad3, nad4, nad4L, nad5, and nad6), ribosomal protein of the small ribosomal subunit (rps), 28 tRNAs, and small and large ribosomal RNAs. Analysis of gene contents, gene orders, and gene sequences revealed that the mitochondrial genome of P. marneffei is more closely related to those of molds than yeasts.     

Comparative analysis of the complete mitochondrial genomes of Aspergillus niger mtDNA type 1a and Aspergillus tubingensis mtDNA type 2b.

To understand the differences in the organization of mitochondrial genomes of the very closely related Aspergillus niger and Aspergillus tubingensis species, we determined the complete genome sequence of the 1a mtDNA type of A. niger and 2b mtDNA type of A. tubingensis and now we provide a comparative analysis of the two mtDNAs. We found that (1) the organization (gene content and order) of the two genomes is almost identical and (2) the size difference between them is principally attributed to the different intron content of their cox1, atp9 and ndh4L genes.     

Nucleotide sequence of a region of the mitochondrial genome of Aspergillus nidulans including the gene for ATPase subunit 6.

A 1500 bp fragment of the Aspergillus nidulans mitochondrial genome contains genes for arginine and asparagine tRNAs, an unassigned reading frame, and the structural gene for ATPase subunit 6. The tRNA genes possess 66% nucleotide homology and possibly originated by a relatively recent duplication event. The unassigned reading frame displays a low level of homology with the human URF A6L. The predicted amino acid sequence of the A-nidulans ATPase subunit 6 gene is 40% homologous to the yeast polypeptide and includes the short, highly conserved regions also present in the equivalent subunits from other mitochondrial systems and from Escherichia coli.     

Cloning, sequence analysis and heterologous expression of the Myrothecium gramineum orotidine-5'-monophosphate decarboxylase gene

A 2918 bp sequence coding for the orotidine-5'-monophosphate decarboxylase enzyme (OMPD) was isolated from the genome of Myrothecium gramineum. This sequence was analysed and, remarkably, it is the first OMPD gene of a Sordariomycete that has an intron. The gene codes for an enzyme of 282 amino acids. The nucleotide sequence and the amino acid sequence were compared with fungal OMPD sequences. They show the highest similarity to OMPD genes and enzymes of Aspergillus sp., Penicillium sp. and Cladosporium fulvum. The functionality of the gene as a selection marker was proven by complementation of the uracil auxotrophy of Aspergillus nidulans FGSC A722.     

The complete mitochondrial genome and phylogenetic analysis of the giant panda (Ailuropoda melanoleuca)

The complete mitochondrial genome sequence of the giant panda, Ailuropoda melanoleuca, was determined by the long and accurate polymerase chain reaction (LA-PCR) with conserved primers and primer walking sequence methods. The complete mitochondrial DNA is 16,805 nucleotides in length and contains two ribosomal RNA genes, 13 protein-coding genes, 22 transfer RNA genes and one control region. The total length of the 13 protein-coding genes is longer than the American black bear, brown bear and polar bear by 3 amino acids at the end of ND5 gene. The codon usage also followed the typical vertebrate pattern except for an unusual ATT start codon, which initiates the NADH dehydrogenase subunit 5 (ND5) gene. The molecular phylogenetic analysis was performed on the sequences of 12 concatenated heavy-strand encoded protein-coding genes, and suggested that the giant panda is most closely related to bears.     

Mysteries of mitochondrial protein synthesis

Mitochondria possess an endogenous system of translation, in which all constituent components are unique. An electrophoretic analysis of mitochondrial translation products revealed that the content of polypeptides in mitochondria is two times as high as that of mitochondrial DNA genes. The electrophoretically determined molecular mass of proteins synthesized in mitochondria is much less than that calculated from gene sequencing data. The average amino acid composition of the proteins synthesized in mitochondria differs significantly from that encoded by the nucleotide sequence of corresponding mitochondrial genes. These enigmas of mitochondrial protein synthesis await further solution.     

Analysis of the complete mitochondrial DNA sequence of the brachiopod terebratulina retusa places Brachiopoda within the protostomes

Brachiopod phylogeny is still a controversial subject. Analyses using nuclear 18SrRNA and mitochondrial 12SrDNA sequences place them within the protostomes but some recent interpretations of morphological data support a relationship with deuterostomes. In order to investigate brachiopod affinities within the metazoa further, we compared the gene arrangement on the brachiopod mitochondrial genome with several metazoan taxa. The complete (15 451 bp) mitochondrial DNA (mtDNA) sequence of the articulate brachiopod Terebratulina retusa was determined from two overlapping long polymerase chain reaction products. All the genes are encoded on the same strand and gene order comparisons showed that.only one major rearrangement is required to interconvert the T. retusa and Katharina tunicata (Mollusca: Polvplacophora) mitochondrial genomes. The partial mtDNA sequence of the prosobranch mollusc Littorina saxatilis shows complete congruence with the T. rehtusa gene arrangement with regard to the ribosomal and protein coding genes. This high similarity in gene arrangement is the first to be reported within the protostomes. Sequence analyses of mitochondrial protein coding genes also support a close relationship of the brachiopod with molluscs and annelids, thus supporting the clade Lophotrochozoa. Though being highly informative, sequence analyses of the mitochondrial protein coding genes failed to resolve the branching order within the lophotrochozoa.     

The complete mitochondrial genome and phylogenetic analysis of Nyctereutes procyonoides

The complete mitochondrial genome sequence of the raccoon dog (Nyctereutes procyonoides) was determined by using the long and accurate polymerase chain reaction. The entire mitochondrial genome sequence is 16,713 bp in length contains two ribosomal RNA genes, 13 protein-coding genes, 22 transfer RNA genes and 1 control region. Most mitochondrial genes are encoded on the H strand, except for the ND6 gene and 8 tRNA genes. The base compositions of mitochondrial genomes present clearly A–T skew. All the transfer RNA genes can be folded into the typical cloverleaf-shaped structure except tRNA-Ser (AGY), which lacks the dihydrouridine arm. Protein-coding genes mainly initiate with ATG and terminate with TAA. Some reading frame intervals and overlaps are found in the mitochondrial genome. The control region can be divided into three domains: the extended termination associated sequences (ETASs) domain, the central conserved domain and the conserved sequence blocks (CSBs) domain. Three conserved sequence blocks (CSBs) and one extended termination associated sequences (ETAS-1) is found in the control region. The phylogenetic analysis based on the concatenated data set of 14 genes in the mitochondrial genome of Canidae shows that the raccoon dog has close phylogenetic position with the red fox (Vulpes vulpes) and they constitute a clade which has an equil evolutionary position with the clade formed by the genera Canis and Cuon.     

Identification of two methionine transfer RNA genes in the maize mitochondrial genome

Two methionine transfer RNA (tRNA) genes were identified in the maize mitochondrial genome by nucleotide sequence analysis. One tRNA gene was similar in nucleotide sequence and secondary structure to the initiator methionine tRNA genes of eubacteria and higher plant chloroplast genomes. This tRNA gene also had extensive nucleotide homology (99%) with an initiator methionine tRNA gene described for the wheat mitochondrial genome. The other methionine tRNA gene sequence was distinct and more closely resembled an elongator methionine tRNA.     

Interpretation of intraspecific variability in mtDNAs of Aspergillus niger strains and rearrangement of their mtDNAs following mitochondrial transmissions

Physical and functional maps of mitochondrial DNAs of Aspergillus niger strains representing different mitochondrial DNA RFLP patterns were constructed and compared. In spite of the high similarity in the organisation of mitochondrial DNAs among examined strains, differences could be easily recognised by applying molecular markers, such as the different intron content of the cox1 genes, the sequence of the intergenic regions between the Met- and His-tRNA genes and downstream of the tRNA-Gly gene. Intraspecific mitochondrial transfers between the heterokaryon incompatible mitochondrial oligomycin-resistant A. niger strain, as the donor, and other A. niger-sensitive strains bearing different RFLP patterns resulted in oligomycin-resistant progeny possessing either rearranged or unchanged donor mitochondrial DNA and recipient nuclei. Since the intergenic marker sequences of mitochondrial DNAs turned out to be identical in the donor and the progeny, it can be assumed that the oligomycin-resistant progeny inherit the mitochondrial DNA of the donor strain; this may either remain unchanged or may be modified by a mobile intron of the cox1 gene of the recipient mitochondria.     

Shaking the Diptera tree of life: performance analysis of nuclear and mitochondrial sequence data partitions

The value of mitochondrial versus nuclear gene sequence data in phylogenetic analysis has received much attention without yielding definitive conclusions. Theoretical arguments and empirical data suggest a lower phylogenetic utility than equivalent nuclear gene sequences, but there are many examples of important progress made using mitochondrial sequences. We undertook a systematic performance analysis of mitochondrial and nuclear sequence partitions taken from a representative sample of dipteran species. When analysed alone, mitochondrial genes generally performed less well than nuclear genes; however, these genes resolved some branches for which nuclear genes failed. Moreover, the combined use of mitochondrial and nuclear sequences produced superior results without artifacts for nodes where mitochondrial and nuclear gene data generated conflicting topologies. These findings strongly advocate the inclusion of mitochondrial sequences, even in deep phylogeny reconstruction. Comparison of tree support between our and previous analyses identified robustly supported high‐confidence clades in the Diptera, but also revealed problematic groupings in need of further analysis.     

The mitochondrial genome of the Basidiomycete fungus Pleurotus ostreatus (oyster mushroom)

In this study, the full mitochondrial genome of a basidiomycete fungus, Pleurotus ostreatus, was sequenced and analyzed. It is a circular DNA molecule of 73 242 bp and contains 44 known genes encoding 18 proteins and 26 RNA genes. The protein-coding genes include 14 common mitochondrial genes, one ribosomal small subunit protein 3 gene, one RNA polymerase gene and two DNA polymerase genes. In addition, one RNA and one DNA polymerase genes were identified in a mitochondrial plasmid. These two genes show relatively low similarities to their homologs in the mitochondrial genome but they are nearly identical to the known mitochondrial plasmid genes from another Pleurotus ostreatus strain. This suggests that the plasmid may mediate the horizontal gene transfer of the DNA and RNA polymerase genes into mitochondrial genome, and such a transfer may be an ancient event. Phylogenetic analysis based on the cox1 ORFs verified the traditional classification of Pleurotus ostreatus among fungi. However, the discordances were observed in the phylogenetic trees based on the six cox1 intronic ORFs of Pleurotus ostreatus and their homologs in other species, suggesting that these intronic ORFs are foreign DNA sequences obtained through HGT. In summary, this analysis provides valuable information towards the understanding of the evolution of fungal mtDNA.     

绿眼赛茧蜂线粒体基因组全序列测定和分析

【目的】测定绿眼赛茧蜂Zele chlorophthalmus线粒体基因组全序列,分析其基因组结构及茧蜂科(Braconidae)部分类群的系统发育关系。【方法】利用Illumina MiSeq二代测序技术对绿眼赛茧蜂的线粒体基因组进行测序,对基因组序列进行拼装、注释,分析其结构特点和碱基组成;基于22种茧蜂科昆虫的COX1蛋白编码基因序列,应用最大似然法(ML)和邻接法(NJ)构建系统发育树,分析绿眼赛茧蜂与茧蜂科其他昆虫的系统发育关系。【结果】绿眼赛茧蜂线粒体基因组全长16 661 bp(GenBank登录号: MG822749),包含13个蛋白质编码基因、22个tRNA基因和2个rRNA基因,共37个基因,以及1个控制区。线粒体基因组有明显的核苷酸组成的偏倚,AT偏正,GC偏负,其A+T含量为82.83%。基因排列顺序与推测的昆虫祖先的序列不完全一致,tRNA基因7处发生重排。13个蛋白质编码基因均以ATN为起始密码子,以TAA为终止密码子。在22个tRNA基因二级结构中,除tRNA^His(H)缺失TΨC环和tRNA^Cys(C)仅剩二氢尿嘧啶(DHU)臂和反密码子臂外,其余tRNA基因均能形成典型的三叶草结构。基于COX1蛋白编码序列的系统发育分析结果显示,与绿眼赛茧蜂亲缘关系最近的是同属于赛茧蜂属的雪跗赛茧蜂Z. niveitarsis。【结论】本研究首次获得绿眼赛茧蜂线粒体基因组全序列。结果表明绿眼赛茧蜂隶属于优茧蜂亚科(Euphorinae)赛茧蜂属,并支持赛茧蜂属的单系性。     

Isolation,expression, and evolution of the gene encoding mitochondrial elongation factor Tu in Arabidopsis thaliana

We have characterized a second nuclear gene (tufM) in Arabidopsis thaliana that encodes a eubacterial-like protein synthesis elongation factor Tu (EF-Tu). This gene does not closely resemble the previously described Arabidopsis nuclear tufA gene, which encodes the plastid EF-Tu, and does not contain sequence elements found in all cyanobacterial and plastid tufA genes. However, the predicted amino acid sequence includes an N-terminal extension which resembles an organellar targeting sequence and shares three unique sequence elements with mitochondrial EF-Tu's, from Saccharomyces cerevisiae and Homo sapiens, suggesting that this gene encodes the Arabidopsis mitochondrial EF-Tu. Consistent with this interpretation, the gene is expressed at a higher level in flowers than in leaves. Phylogenetic analysis confirms the mitochondrial character of the sequence and indicates that the human, yeast, and Arabidopsis tufM genes have undergone considerably more sequence divergence than their cytoplasmic counterparts, perhaps reflecting a cross-compartmental acceleration of gene evolution for components of the mitochondrial translation apparatus. As previously observed for tufA, the tufM gene is present in one copy in Arabidopsis but in several copies in other species of crucifers.