Sequences analysis of chloroplast psbA-trnH region in Citrus L. (Rutaceae) species from the Aegean region of Turkey

In this study, sequences analysis of some Citrus species distributed in Turkey's Aegean region was based on the cpDNA psbA-trnH region. The sequences for psbA-trnH regions of the outgroups were retrieved from NCBI GenBank. Genomic DNA was isolated from healthy and green leaves. Total genomic DNA was extracted using GeneMark DNA isolation Plant Kit. The psbA-trnH region was amplified using primers psbA and trnH. DNA sequences were edited using the Sequencher 5.4.6. Sequencing data were analyzed using MEGA 6.0 software. Maximum likelihood (ML) tree was created to determine the relationships between Citrus taxa. cpDNA psbA-trnH sequences ranged between 426 and 470 nucleotides. Maximum likelihood phylogenetic tree is composed of two clades. The divergence values differed between 0.000 and 0.012. According to the results of the study, the separation of Citrus species in phylogenetic tree obtained with psbA-trnH sequence data was realized. However, it has been found that cpDNA psbA-trnH sequence populations of species belong together. In addition, the phylogenetic relationship between the sequence data of some species belonging to the Rutaceae family taken from NCBI and Citrus species was revealed.

A new Diplura species from Georgia caves, Plusiocampa (Plusiocampa) imereti (Diplura, Campodeidae), with morphological and molecular data

A new dipluran species, Plusiocampa (Plusiocampa) imereti Sendra & Barjadze sp. nov., from the deep zone in three caves in the Imereti region, Georgia, is described. This new troglobitic Plusiocampa is an addition to four others known Diplura from around the Black Sea region, two Dydimocampa and two Plusiocampa s. str. The present study also provides the first CO1 sequences for the Plusiocampinae taxa and the first molecular data for cave-dwelling Plusiocampa species. Although bootstrap values were low, the maximum-likelihood phylogenetic tree grouped Plusiocampa (P.) imereti Sendra & Barjadze sp. nov. with two Plusiocampa s. str. species from Eastern Europe. Morphologically, P. (P.) imereti Sendra & Barjadze sp. nov. is closely related to two cave-dwelling species: Plusiocampa (Plusiocampa) glabra Condé, 1984 and Plusiocampa (P.) chiosensis Sendra & Gasparo, 2020. The new species can be distinguished by the presence of lateral anterior macrosetae on metanotum, more uneven claws, and the presence of 2+2 lateral anterior macrosetae on middle urotergites. The five species currently known for the Black Sea region inhabit caves located at low altitude but with no influence from former glacial or permafrost processes.

Molecular Characterization of a Novel Alternavirus Infecting the Entomopathogenic Fungus Cordyceps Chanhua

In this study, a novel double-stranded RNA (dsRNA) mycovirus, named Cordyceps chanhua alternavirus 1 (CcAV1), was detected in the entomogenous fungus Cordyceps chanhua from China. The complete genome of CcAV1 contained three dsRNA genome segments, dsRNA 1 (3,512 bp), dsRNA 2 (2,655 bp), and dsRNA 3 (2,415 bp). All the three dsRNAs possess a single open reading frame (ORF). DsRNA 1 with 3,512 bp long encoded a putative RNA-dependent RNA polymerase (RdRp), while dsRNA 2 with 2,655 bp long and dsRNA 3 with 2,415 bp long encoded a hypothetical protein 1 (HP 1) and a hypothetical protein 2 (HP 2), respectively. The RdRp, HP 1 and HP 2 sequences had the highest identity of 66.99%, 49.30% and 56.91%, respectively, to those of Aspergillus foetidus dsRNA mycovirus. A maximum-likelihood phylogenetic tree from RdRp sequence revealed that CcAV1 was placed in the clade of the proposed family “Alternaviridae”. Hence, we proposed that Cordyceps chanhua alternavirus 1 is a novel member of the proposed “Alternaviridae”.

Evolution and origin of sliding clamp in bacteria, archaea and eukarya

The replication of DNA is an essential process in all domains of life. A protein often involved in replication is the sliding clamp. The sliding clamp encircles the DNA and helps replicative polymerase stay attached to the replication machinery increasing the processivity of the polymerase. In eukaryotes and archaea, the sliding clamp is called the Proliferating Cell Nuclear Antigen (PCNA) and consists of two domains. This PCNA forms a trimer encircling the DNA as a hexamer. In bacteria, the structure of the sliding clamp is highly conserved, but the protein itself, called beta clamp, contains three domains, which dimerize to form a hexamer. The bulk of literature touts a conservation of the structure of the sliding clamp, but fails to recognize the conservation of protein sequence among sliding clamps. In this paper, we have used PSI blast to the second iteration in NCBI to show a statistically significant sequence homology between Pyrococcus furiosus PCNA and Kallipyga gabonensis beta clamp. The last two domains of beta clamp align with the two domains of PCNA. This homology data demonstrates that PCNA and beta clamp arose from a common ancestor. In this paper, we have further used beta clamp and PCNA sequences from diverse bacteria, archaea and eukarya to build maximum likelihood phylogenetic tree. Most, but not all, species in different domains of life harbor one sliding clamp from vertical inheritance. Some of these species that have two or more sliding clamps have acquired them from gene duplication or horizontal gene transfer events.

First partial mitogenome of a new Seira Lubbock species (Collembola,Entomobryidae, Seirinae) from Cambodia reveals a possible separate lineage from the Neotropical Seirinae

A new species of Seira from Koh Rong Sanloem Island, Cambodia, as well as its mitochondrial genome information, are herein described. Seira sanloemensis sp. nov. has a similar colour pattern compared to nine other species of Seira worldwide distributed, but the dorsal chaetotaxy is more similar to S. arunachala Mitra from India, S. camgiangensis Nguyễn from Vietnam, and S. gobalezai Christiansen & Bellinger from Hawaii. However, the new species differs from these species by dorsal chaetotaxy of head, Th II–III and Abd II, collophore chaetotaxy, and morphology of the empodial complex. This is the third Collembola species described for Cambodia. Its assembled incomplete mitogenome from MGI reads, has a length of 13,953 bp, and contains all protein-coding genes except for tree tRNAs missing; the gene order is the same of the Pancrustacean ancestral gene order. Based on the alignment of the 13 coding genes, a maximum likelihood phylogenetic tree of medium bootstrap values suggested that the Asian Seira species can represent a different lineage from the Neotropical Seirinae, but further biogeographic and divergence estimation analyses plus the inclusion of more Asian taxa are necessary to test such hypothesis.

Genetic composition and evolution of the prevalent Mycobacterium tuberculosis lineages 2 and 4 in the Chinese and Zhejiang Province populations

The causative agent of tuberculosis (TB) comprises seven human-adapted lineages. Human movements and host genetics are crucial to TB dissemination. We analyzed whole-genome sequencing data for a countrywide collection of 1154 isolates and a provincial collection of 1296 isolates, constructed the best-scoring maximum likelihood phylogenetic tree, conducted Bayesian evolutionary analysis to compute the most recent common ancestors of lineages 2 and 4, and assessed the antigenic diversity in human T cell epitopes by calculating pairwise dN/dS ratios. Of the 1296 Zhejiang isolates, 964 (74.38%) belonged to lineage 2 and 332 (25.62%) belonged to lineage 4. L2.2 is the most ancient sub-lineage in Zhejiang, first appearing approximately 6897 years ago (95% HDI: 6513-7298). L4.4 is the most modern sub-lineage, first appearing approximately 2217 years ago (95% HDI: 1864-2581). The dN/dS ratios revealed that the epitope and non-epitope regions of lineage 2 strains were significantly (P<0.001) more conserved than those of lineage 4. An increase in the frequency of lineage 4 may reflect its successful transmission over the last 20 years. The recent common ancestors and transmission routes of the sub-lineages are related to the entry of humans into China and Zhejiang Province.

Evolution and origin of sliding clamp in bacteria, archaea and eukarya

Replication of DNA is an essential process in all domains of life. A protein often involved without exception in replication is the sliding clamp. The sliding clamp encircles the DNA and helps replicative polymerase stay attached to the replication machinery increasing the processivity of the polymerase. In eukaryotes and archaea the sliding clamp is called the Proliferating Cell Nuclear Antigen (PCNA) and consists of two domains. This PCNA forms a trimer encircling the DNA as a hexamer. In bacteria, the structure of the sliding clamp is highly conserved, but the protein itself, called beta clamp, contains three domains, which dimerize to form a hexamer. The bulk of literature touts a conservation of the structure of the sliding clamp, but fails to recognize conservation of protein sequence among sliding clamps. In this paper we have used PSI blast to the second interation in NCBI to show a statistically significant sequence homology between Pyrococcus furiosus PCNA and Kallipyga gabonensis beta clamp. The last two domains of beta clamp align with the two domains of PCNA. This homology data demonstrates that PCNA and beta clamp arose from a common ancestor. In this paper, we have further used beta clamp and PCNA sequences from diverse bacteria, archaea and eukarya to build maximum likelihood phylogenetic tree. Most, but not all, species in different domains of life harbor one sliding clamp from vertical inheritance. Some of these species that have two or more sliding clamps have acquired them from gene duplication or horizontal gene transfer events.

MOLECULAR EPIDEMIOLOGY OFCANINE PARVOVIRUS TYPE2A AND 2B AMONG SHELTER DOGS — THE NEW RECOMBINATION IN VIRUS

Canine parvovirus type 2 (CPV-2) is a severe enteric pathogen mainly affecting dogs. CPV-2 contains three antigenic variants (2a, 2b, and 2c) that are distributed internationally. Detection and characterization of the currently circulating CPV-2 strains are vital for the understanding of viral evolution, transmission, and the development of methods to control its spreading. Herein, we analyzed the strains in central Taiwan to provide information of local viral evolution, diversity, and epidemiology. Stool and blood samples from 24 dogs and 2 cats were genotyped by PCR amplification of strain-specific VP2 sequence collected during 2011–2013. 60% (16/26) of them were positive and 100% (16/16) of these positive samples were type 2b. Then, the full length VP2 gene was sequenced in 6 CPV-positive samples and a maximum-likelihood phylogenetic tree was constructed using both Taiwan and other strains worldwide. Surprisingly, all Taiwan CPVs showed high relatedness to type 2a. Recombination analysis revealed a recombination of VP2 gene between type 2a and 2b. This study demonstrates a recombination between CPV-2a and 2b in nature that contributes to the genetic diversity and evolution of CPV-2.