Your search keyword '"Genes, Essential genetics"' showing total 797 results

151. Description of Palleronia rufa sp. nov., a biofilm-forming and AHL-producing Rhodobacteraceae, reclassification of Hwanghaeicola aestuarii as Palleronia aestuarii comb. nov., Maribius pontilimi as Palleronia pontilimi comb. nov., Maribius salinus as Palleronia salina comb. nov., Maribius pelagius as Palleronia pelagia comb. nov. and emended description of the genus Palleronia.

Author

Barnier C, Clerissi C, Lami R, Intertaglia L, Lebaron P, Grimaud R, and Urios L

Subjects

Bacterial Proteins genetics, DNA, Bacterial genetics, Genes, Essential genetics, Genome, Bacterial genetics, New Caledonia, Phylogeny, Quorum Sensing, RNA, Ribosomal, 16S genetics, Rhodobacteraceae chemistry, Rhodobacteraceae cytology, Roseobacter chemistry, Roseobacter classification, Roseobacter cytology, Roseobacter physiology, Seawater microbiology, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Species Specificity, Acyl-Butyrolactones metabolism, Biofilms growth & development, Rhodobacteraceae classification, Rhodobacteraceae physiology

Abstract

Strain MOLA 401 T was isolated from marine waters in the southwest lagoon of New Caledonia and was shown previously to produce an unusual diversity of quorum sensing signaling molecules. This strain was Gram-negative, formed non-motile cocci and colonies were caramel. Optimum growth conditions were 30°C, pH 8 and 3% NaCl (w/v). Based on 16S rRNA gene sequence analysis, this strain was found to be closely related to Pseudomaribius aestuariivivens NBRC 113039 T (96.9% of similarity), Maribius pontilimi DSM 104950 T (96.4% of similarity) and Palleronia marisminoris LMG 22959 T (96.3% of similarity), belonging to the Roseobacter group within the family Rhodobacteraceae. As its closest relatives, strain MOLA 401 T is able to form a biofilm on polystyrene, supporting the view of Roseobacter group strains as prolific surface colonizers. An in-depth genomic study allowed us to affiliate strain MOLA 401 T as a new species of genus Palleronia and to reaffiliate some of its closest relatives in this genus. Consequently, we describe strain MOLA 401 T (DSM 106827 T =CIP 111607 T =BBCC 401 T ) for which we propose the name Palleronia rufa sp. nov. We also propose to emend the description of the genus Palleronia and to reclassify Maribius and Hwanghaeicola species as Palleronia species., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2020

152. High taxonomic diversity of Micromonospora strains isolated from Medicago sativa nodules in Western Spain and Australia.

Author

Martínez-Hidalgo P, Flores-Félix JD, Velázquez E, Brau L, Trujillo ME, and Martínez-Molina E

Subjects

Australia, DNA, Bacterial genetics, DNA, Ribosomal Spacer genetics, Genes, Bacterial genetics, Genes, Essential genetics, Micromonospora genetics, Micromonospora isolation & purification, Nucleic Acid Hybridization, Phylogeny, Sequence Analysis, DNA, Spain, Biodiversity, Medicago sativa, Micromonospora classification, Root Nodules, Plant microbiology

Abstract

The genus Micromonospora has been found in nodules of several legumes and some new species of this genus were isolated from these plant organs. In this study we analysed the taxonomic diversity of Micromonospora strains isolated from alfalfa nodules in Spain and Australia on the basis of three phylogenetic markers, the rrs and gyrB genes and 16S-23S intergenic spacer (ITS). The genome analysis of selected strains representative of different clusters or lineages found after rrs, gyrB and ITS analyses confirmed the results obtained with these phylogenetic markers. They showed that the analysed strains belong to at least 18 Micromonospora species including previously described ones, such as Micromonospora noduli, Micromonospora ureilytica, Micromonospora taraxaci, Micromonospora zamorensis, Micromonospora aurantiaca and Micromonospora tulbaghiae. Most of these strains belong to undescribed species of Micromonospora showing the high taxonomic diversity of strains from this genus inhabiting alfalfa nodules. Although Micromonospora strains are not able to induce the formation of these nodules, and it seems that they do not contribute to fix atmospheric nitrogen, they could play a role related with the mechanisms of plant growth promotion and pathogen protection presented by Micromonospora strains isolated from legume nodules., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2020

153. Stable reference genes for expression studies in breast muscle of normal and white striping-affected chickens.

Author

Marciano CMM, Ibelli AMG, Peixoto JO, Savoldi IR, do Carmo KB, Fernandes LT, and Ledur MC

Subjects

Animals, Gene Expression, Gene Expression Profiling methods, Gene Expression Regulation, Muscular Diseases metabolism, Muscular Diseases veterinary, Poultry Diseases genetics, Poultry Diseases metabolism, Real-Time Polymerase Chain Reaction methods, Reference Standards, Chickens genetics, Gene Expression Profiling standards, Genes, Essential genetics, Muscular Diseases genetics, Pectoralis Muscles metabolism, Real-Time Polymerase Chain Reaction standards

Abstract

The normalization with proper reference genes is a crucial step to obtain accurate mRNA expression levels in quantitative PCR (qPCR) studies. Therefore, in this study, 10 reference candidate genes were evaluated to determine their stability in normal pectoralis major muscle of broilers and those counterparts affected with White Striping (WS) myopathy at 42 days age. Four different tools were used for ranking the most stable genes: GeNorm, NormFinder, BestKeeper and Comparative Ct (ΔCt), and a general ranking was performed using the RankAggreg tool to select the best reference genes among all tools. From the 10 genes evaluated in the breast muscle of broilers, 8 were amplified. Most of the algorithms/tools indicated the same two genes, RPL30 and RPL5, as the most stable in the broilers breast muscle. In addition, there was agreement among the tools for the least stable genes: MRPS27, GAPDH and RPLP1 in the broilers breast muscle. Therefore, it is interesting to note that even with different tools for evaluating gene expression, there was consensus on the most and least stable genes. These results indicate that the Ribosomal protein L30 (RPL30) and Ribosomal protein L5 (RPL5) can be recommended for accurate normalization in qPCR studies with chicken pectoralis major muscle affected with White Striping and other myopathies.

Published

2020

154. History and current taxonomic status of genus Agrobacterium.

Author

Flores-Félix JD, Menéndez E, Peix A, García-Fraile P, and Velázquez E

Subjects

Agrobacterium genetics, DNA, Bacterial genetics, Genes, Bacterial genetics, Genes, Essential genetics, Genome, Bacterial genetics, Humans, Rhizobiaceae classification, Rhizobiaceae genetics, Rhizobium classification, Rhizobium genetics, Agrobacterium classification, Phylogeny

Abstract

The genus Agrobacterium was created a century ago by Conn who included it in the family Rhizobiaceae together with the genus Rhizobium. Initially, the genus Agrobacterium contained the non-pathogenic species Agrobacterium radiobacter and the plant pathogenic species Agrobacterium tumefaciens and Agrobacterium rhizogenes. At the end of the past century two new pathogenic species, Agrobacterium rubi and Agrobacterium vitis, were added to the genus. Already in the present century these species plus Agrobacterium larrymoorei were reclassified into genus Rhizobium. This reclassification was controversial and for a time both genus names were used when new species were described. Few years ago, after a taxonomic revision based on genomic data, the old species A. rhizogenes was maintained in the genus Rhizobium, the old species A. vitis was transferred to the genus Allorhizobium and several Rhizobium species were transferred to the genus Agrobacterium, which currently contains 14 species including the old species A. radiobacter, A. tumefaciens, A. rubi and A. larrymoorei. Most of these species are able to produce tumours in different plants, nevertheless the genus Agrobacterium also encompasses non-pathogenic species, one species able to nodulate legumes and one human pathogenic species. Taking into account that the species affiliations to five Agrobacterium genomospecies have not been determined yet, an increase in the number of species within this genus is expected in the near future., (Copyright © 2019. Published by Elsevier GmbH.)

Published

2020

155. Root nodules of Genista germanica harbor Bradyrhizobium and Rhizobium bacteria exchanging nodC and nodZ genes.

Author

Kalita M and Małek W

Subjects

Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Bacterial Proteins genetics, Bradyrhizobium classification, Bradyrhizobium isolation & purification, DNA, Bacterial genetics, Gene Transfer, Horizontal, Genes, Essential genetics, Genetic Variation, Host Specificity, Phylogeny, RNA, Ribosomal, 16S genetics, Rhizobium classification, Rhizobium isolation & purification, Sequence Analysis, DNA, Symbiosis genetics, Bradyrhizobium genetics, Genista microbiology, Plant Root Nodulation genetics, Rhizobium genetics, Root Nodules, Plant microbiology

Abstract

A collection of 18 previously unstudied strains isolated from root nodules of Genista germanica (German greenweed) grown in southeast Poland was evaluated for the level of genetic diversity using the BOX-PCR technique and the phylogenetic relationship based on both core (16S rRNA, dnaK, ftsA, glnII, gyrB, recA, rpoB) and nodulation (nodC and nodZ) gene sequences. Each of the 18 G. germanica root nodule isolates displayed unique BOX-PCR patterns, indicating their high level of genomic heterogeneity. Based on the comparative 16S rDNA sequence analysis, 12 isolates were affiliated to the Bradyrhizobium genus and the other strains were most similar to Rhizobium species. Phylogenetic analysis of the core gene sequences indicated that the studied Bradyrhizobium bacteria were most closely related to Bradyrhizobium japonicum, whereas Rhizobium isolates were most closely related to Rhizobium lusitanum and R. leguminosarum. The phylogenies of nodC and nodZ for the Rhizobium strains were incongruent with each other and with the phylogenies inferred from the core gene sequences. All Rhizobium nodZ gene sequences acquired in this study were grouped with the sequences of Bradyrhizobium strains. Some of the studied Rhizobium isolates were placed in the nodC phylogenetic tree together with reference Rhizobium species, while the others were closely related to Bradyrhizobium bacteria. The results provided evidence for horizontal transfer of nodulation genes between Bradyrhizobium and Rhizobium. However, the horizontal transfer of nod genes was not sufficient for Rhizobium strains to form nodules on G. germanica roots, suggesting that symbiotic genes have to be adapted to the bacterial genome., (Copyright © 2019 The Authors. Published by Elsevier GmbH.. All rights reserved.)

Published

2020

156. Genotypic and symbiotic diversity of native rhizobia nodulating red pea (Lathyrus cicera L.) in Tunisia.

Author

Gritli T, Ellouze W, Chihaoui SA, Barhoumi F, Mhamdi R, and Mnasri B

Subjects

Biodiversity, Biomass, DNA, Bacterial genetics, Genes, Bacterial genetics, Genes, Essential genetics, Genetic Variation, Genotype, Lathyrus growth & development, Phylogeny, Plant Root Nodulation genetics, Rhizobium classification, Rhizobium isolation & purification, Root Nodules, Plant microbiology, Sequence Analysis, DNA, Soil Microbiology, Tunisia, Lathyrus microbiology, Plant Root Nodulation physiology, Rhizobium genetics, Symbiosis genetics

Abstract

Nodulation and genetic diversity of native rhizobia nodulating Lathyrus cicera plants grown in 24 cultivated and marginal soils collected from northern and central Tunisia were studied. L. cicera plants were nodulated and showed the presence of native rhizobia in 21 soils. A total of 196 bacterial strains were selected and three different ribotypes were revealed after PCR-RFLP analysis. The sequence analysis of the rrs and two housekeeping genes (recA and thrC) from 36 representative isolates identified Rhizobium laguerreae as the dominant (53%) rhizobia nodulating L. cicera. To the best of our knowledge, this is the first time that this species has been reported among wild populations of the rhizobia-nodulating Lathyrus genus. Twenty-five percent of the isolates were identified as R. leguminosarum and isolates LS11.5, LS11.7 and LS8.8 clustered with Ensifer meliloti. Interestingly, five isolates (LS20.3, LS18.3, LS19.10, LS1.2 and LS21.20) were segregated from R. laguerreae and clustered as a separate clade. These isolates possibly belong to new species. According to nodC and nodA phylogeny, strains of R. laguerreae and R. leguminosarum harbored the symbiotic genes of symbiovar viciae and clustered in three different clades showing heterogeneity within the symbiovar. Strains of E. meliloti harbored symbiotic genes of Clade V and induced inefficient nodules., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2020

157. Halomonas borealis sp. nov. and Halomonas niordiana sp. nov., two new species isolated from seawater.

Author

Diéguez AL, Balboa S, and Romalde JL

Subjects

Bacterial Proteins genetics, Base Composition, DNA, Bacterial genetics, Fatty Acids analysis, Genes, Essential genetics, Genome, Bacterial genetics, Halomonas chemistry, Halomonas cytology, Halomonas physiology, Norway, Nucleic Acid Hybridization, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Species Specificity, Ubiquinone chemistry, Halomonas classification, Seawater microbiology

Abstract

Two Gram-negative strains obtained from tank water in a scallop hatchery in Norway, were phenotypically and genotypically characterized in order to clarify their taxonomic position. On the basis of 16S rRNA gene sequence analysis, these isolates, ATF 5.2 T and ATF 5.4 T , were included in the genus Halomonas, being their closest relatives H. smyrnensis and H. taeanensis, with similarities of 98.9% and 97.7%, respectively. Sequence analysis of the housekeeping genes atpA, ftsZ, gyrA, gyrB, mreB, rpoB, rpoD, rpoE, rpoH, rpoN and rpoS clearly differentiated the isolates from the currently described Halomonas species, and the phylogenetic analysis using concatenated sequences of these genes located them in two robust and independent branches. DNA-DNA hybridization (eDDH) percentage, together with average nucleotide identity (ANI), were calculated using the complete genome sequences of the strains, and demonstrate that the isolates constitute two new species of Halomonas, for which the names of Halomonas borealis sp. nov. and Halomonas niordiana sp. nov. are proposed, with type strains ATF 5.2 T (=CECT 9780 T =LMG 31367 T ) and ATF 5.4 T (=CECT 9779 T =LMG 31227 T ), respectively., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2020

158. Gene Expression Analysis in Bacteria by RT-qPCR.

Author

Rocha DJPG, Castro TLP, Aguiar ERGR, and Pacheco LGC

Subjects

Fluorescent Dyes chemistry, Gene Expression Profiling standards, Gene Expression Regulation, Bacterial, Genes, Essential genetics, Guidelines as Topic, Molecular Probes chemistry, Real-Time Polymerase Chain Reaction standards, Reference Standards, Reproducibility of Results, Bacteria genetics, Gene Expression Profiling methods, Molecular Probe Techniques standards, RNA, Bacterial isolation & purification, Real-Time Polymerase Chain Reaction methods

Abstract

Reverse-transcription quantitative real-time polymerase chain reaction (RT-qPCR) using fluorescent DNA-binding dyes is now a gold-standard methodology to study bacterial gene expression through relative quantitation of target mRNAs under specific experimental conditions, and recent developments in the technology allow for gene expression analysis in single cells. Nevertheless, several critical steps of the RT-qPCR protocol need to be carefully addressed in order to obtain reliable results, particularly regarding RNA sample quality and appropriate choice of reference genes. Besides, accurate reporting of study conditions is essential, as recommended by the MIQE guidelines. Herein, we provide a practical approach to quantitation of the transcript levels of bacterial genes using RT-qPCR, including a general protocol for obtaining good-quality bacterial RNA and a discussion on the selection and validation of candidate bacterial reference genes for data normalization.

Published

2020

159. Multi-gene technical assessment of qPCR and NanoString n-Counter analysis platforms in cynomolgus monkey cardiac allograft recipients.

Author

Bergbower EAS, Pierson RN 3rd, and Azimzadeh AM

Subjects

Allografts, Animals, Endocardium cytology, Gene Expression physiology, Genes, Essential genetics, Immunosuppression Therapy, Macaca fascicularis, Nucleic Acid Amplification Techniques, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Transplant Recipients, Gene Expression Profiling methods, Graft Rejection genetics, Heart Transplantation methods, Heart Ventricles cytology

Abstract

Quantitative gene expression profiling of cardiac allografts characterizes the phenotype of the alloimmune response, yields information regarding differential effects that may be associated with various anti-rejection drug regimens, and generates testable hypotheses regarding the pathogenesis of the chronic rejection lesions typically observed in non-human primate heart transplant models. The goal of this study was to assess interplatform performance and variability between the relatively novel NanoString nCounter Analysis System, ΔΔCT (relative) RT-qPCR, and standard curve (absolute) RT-qPCR utilizing cynomolgus monkey cardiac allografts. Methods for RNA isolation and preamplification were also systematically evaluated and effective methods are proposed. In this study, we demonstrate strong correlation between the two RT-qPCR methods, but variable and, at times, weak correlation between RT-qPCR and NanoString. NanoString fold change results demonstrate less sensitivity to small changes in gene expression than RT-qPCR. These findings appear to be driven by technical aspects of each platform that influence the conditions under which each technique is ideal. Collectively, our data contribute to the general effort to optimally utilize gene expression profiling techniques, not only for transplanted tissues, but for many other applications where accurate rank-order of gene expression versus precise quantification of absolute gene transcript number may be relatively valuable., (Published by Elsevier Inc.)

Published

2020

160. Protocols for Tn-seq Analyses in the Group A Streptococcus.

Author

Le Breton Y, Belew AT, and McIver KS

Subjects

DNA Primers genetics, Genes, Essential genetics, High-Throughput Nucleotide Sequencing methods, Humans, Mutagenesis, Insertional genetics, DNA Transposable Elements genetics, Sequence Analysis, DNA methods, Streptococcus pyogenes genetics

Abstract

Transposon-sequencing (Tn-seq) has revolutionized forward-genetic analyses to study genotype-phenotype associations and interrogate bacterial cell physiology. The Tn-seq approach allows the en masse monitoring of highly complex mutant libraries, leveraging massive parallel DNA sequencing as a means to characterize the composition of these mutant pools on a genome-scale with unprecedented nucleotide-level high resolution. In this chapter, we present step-by-step protocols for Tn-seq analyses in the human pathogen Streptococcus pyogenes (Group A Streptococcus or GAS) using the mariner-based Krmit transposon. We detail how to generate highly complex Krmit mutant libraries in GAS and the en masse production of Krmit insertion tags for Illumina sequencing of the transposon-genome junctions for Tn-seq analyses. Most of the protocols presented here were developed and implemented using the S. pyogenes M1T1 serotype clinical isolate 5448, but they have been successfully applied to multiple GAS serotypes as well as other pathogenic Streptococci.

Published

2020

161. Agreement between two large pan-cancer CRISPR-Cas9 gene dependency data sets.

Author

Dempster JM, Pacini C, Pantel S, Behan FM, Green T, Krill-Burger J, Beaver CM, Younger ST, Zhivich V, Najgebauer H, Allen F, Gonçalves E, Shepherd R, Doench JG, Yusa K, Vazquez F, Parts L, Boehm JS, Golub TR, Hahn WC, Root DE, Garnett MJ, Tsherniak A, and Iorio F

Subjects

Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Biomarkers, Tumor antagonists & inhibitors, Cell Line, Tumor, Datasets as Topic, Gene Expression Profiling, Genes, Essential drug effects, Genes, Essential genetics, Humans, Molecular Targeted Therapy methods, Neoplasms drug therapy, Oncogenes drug effects, Oncogenes genetics, Precision Medicine methods, Reproducibility of Results, Small Molecule Libraries pharmacology, Biomarkers, Tumor genetics, CRISPR-Cas Systems genetics, Drug Screening Assays, Antitumor methods, Genomics methods, Neoplasms genetics

Abstract

Genome-scale CRISPR-Cas9 viability screens performed in cancer cell lines provide a systematic approach to identify cancer dependencies and new therapeutic targets. As multiple large-scale screens become available, a formal assessment of the reproducibility of these experiments becomes necessary. We analyze data from recently published pan-cancer CRISPR-Cas9 screens performed at the Broad and Sanger Institutes. Despite significant differences in experimental protocols and reagents, we find that the screen results are highly concordant across multiple metrics with both common and specific dependencies jointly identified across the two studies. Furthermore, robust biomarkers of gene dependency found in one data set are recovered in the other. Through further analysis and replication experiments at each institute, we show that batch effects are driven principally by two key experimental parameters: the reagent library and the assay length. These results indicate that the Broad and Sanger CRISPR-Cas9 viability screens yield robust and reproducible findings.

Published

2019

162. Reference gene screening of Batrachochytrium dendrobatidis and Batrachochytrium salamandrivorans for quantitative real-time PCR studies.

Author

Verbrugghe E, Pasmans F, and Martel A

Subjects

Animals, Chytridiomycota genetics, Dermatomycoses diagnosis, Dermatomycoses microbiology, Gene Expression Profiling methods, Gene Expression Profiling standards, Genes, Essential genetics, RNA, Fungal genetics, RNA, Fungal isolation & purification, Real-Time Polymerase Chain Reaction standards, Amphibians microbiology, Chytridiomycota isolation & purification, Dermatomycoses veterinary, Genes, Fungal genetics

Abstract

Real-time quantitative PCR studies largely depend on reference genes for the normalization of gene expression. Stable reference genes should be accurately selected in order to obtain reliable results. We here present a study screening commonly used reference genes (TEF1F, α-centractin, Ctsyn1, GAPDH, R6046, APRT and TUB) in the chytrid fungi Batrachochytrium dendrobatidis (Bd) and Batrachochytrium salamandrivorans (Bsal), which cause the lethal amphibian skin disease chytridiomycosis. We evaluated the stability of the reference gene candidates during different growth stages of the fungi, using different statistical software packages: ΔCT, BestKeeper, GeNorm, NormFinder and RefFinder. In order to reflect the in vivo situation, the stability of the candidates was assessed when taking all growth stages into account. Using an ex-vivo approach, we tested whether the expression of GAPDH, TUB, R6046 and APRT (Bd) and GAPDH, TUB, R6046 and α-centractin (Bsal) remained stable when these fungi came in contact with host tissue. Finally, their role as in vivo reference genes was examined in skin tissue of experimentally infected midwife toads (Alytes obstetricans) (Bd) and fire salamanders (Salamandra salamandra) (Bsal). Summarized, the present study provides guidance for selecting appropriate reference genes when analyzing expression patterns of these fungal organisms during different growth stages and in Bd- or Bsal-infected tissues.

Published

2019

163. Cellular Processes Involved in Jurkat Cells Exposed to Nanosecond Pulsed Electric Field.

Author

Li H, Liu S, Yang X, Du Y, Luo J, Tan J, and Sun Y

Subjects

Electric Stimulation methods, Electromagnetic Fields, Humans, Jurkat Cells, Molecular Dynamics Simulation, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma metabolism, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma pathology, Protein Binding, Signal Transduction genetics, Electricity, Gene Expression Profiling methods, Gene Expression Regulation, Leukemic, Genes, Essential genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics

Abstract

Recently, nanosecond pulsed electric field (nsPEF) has been considered as a new tool for tumor therapy, but its molecular mechanism of function remains to be fully elucidated. Here, we explored the cellular processes of Jurkat cells exposed to nanosecond pulsed electric field. Differentially expressed genes (DEGs) were acquired from the GEO2R, followed by analysis with a series of bioinformatics tools. Subsequently, 3D protein models of hub genes were modeled by Modeller 9.21 and Rosetta 3.9. Then, a 100 ns molecular dynamics simulation for each hub protein was performed with GROMACS 2018.2. Finally, three kinds of nsPEF voltages (0.01, 0.05, and 0.5 mV/mm) were used to simulate the molecular dynamics of hub proteins for 100 ns. A total of 1769 DEGs and eight hub genes were obtained. Molecular dynamic analysis, including root mean square deviation (RMSD), root mean square fluctuation (RMSF), and the R g , demonstrated that the 3D structure of hub proteins was built, and the structural characteristics of hub proteins under different nsPEFs were acquired. In conclusion, we explored the effect of nsPEF on Jurkat cell signaling pathway from the perspective of molecular informatics, which will be helpful in understanding the complex effects of nsPEF on acute T-cell leukemia Jurkat cells.

Published

2019

164. Microvirga tunisiensis sp. nov., a root nodule symbiotic bacterium isolated from Lupinus micranthus and L. luteus grown in Northern Tunisia.

Author

Msaddak A, Rejili M, Durán D, Mars M, Palacios JM, Ruiz-Argüeso T, Rey L, and Imperial J

Subjects

Anti-Bacterial Agents pharmacology, Fatty Acids chemistry, Genes, Bacterial genetics, Genes, Essential genetics, Methylobacteriaceae chemistry, Methylobacteriaceae drug effects, Methylobacteriaceae genetics, Phenotype, Sequence Analysis, DNA, Species Specificity, Symbiosis genetics, Tunisia, Lupinus microbiology, Methylobacteriaceae classification, Phylogeny, Root Nodules, Plant microbiology

Abstract

Three bacterial strains, LmiM8 T , LmiE10 and LluTb3, isolated from nitrogen-fixing nodules of Lupinus micranthus (Lmi strains) and L. luteus (Llu strain) growing in Northern Tunisia were analysed using genetic, phenotypic and symbiotic approaches. Phylogenetic analyses based on rrs and concatenated gyrB and dnaK genes suggested that these Lupinus strains constitute a new Microvirga species with identities ranging from 95 to 83% to its closest relatives Microvirga makkahensis, M. vignae, M. zambiensis, M. ossetica, and M. lotononidis. The genome sequences of strains LmiM8 T and LmiE10 exhibited pairwise Average Nucleotide Identities (ANIb) above 99.5%, significantly distant (73-89% pairwise ANIb) from other Microvirga species sequenced (M. zambiensis and M. ossetica). A phylogenetic analysis based on the symbiosis-related gene nodA placed the sequences of the new species in a divergent clade close to Mesorhizobium, Microvirga and Bradyrhizobium strains, suggesting that the M. tunisiensis strains represent a new symbiovar different from the Bradyrhizobium symbiovars defined to date. In contrast, the phylogeny derived from another symbiosis-related gene, nifH, reproduced the housekeeping genes phylogenies. The study of morphological, phenotypical and physiological features, including cellular fatty acid composition of the novel isolates demonstrated their unique profile regarding close reference Microvirga strains. Strains LmiM8 T , LmiE10 and LluTb3 were able to nodulate several Lupinus spp. Based on genetic, genomic and phenotypic data presented in this study, these strains should be grouped within a new species for which the name Microvirga tunisiensis sp. nov. is proposed (type strain LmiM8 T =CECT 9163 T , LMG 29689 T )., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

165. Characterization of Bifidobacterium species in feaces of the Egyptian fruit bat: Description of B. vespertilionis sp. nov. and B. rousetti sp. nov.

Author

Modesto M, Satti M, Watanabe K, Puglisi E, Morelli L, Huang CH, Liou JS, Miyashita M, Tamura T, Saito S, Mori K, Huang L, Sciavilla P, Sandri C, Spiezio C, Vitali F, Cavalieri D, Perpetuini G, Tofalo R, Bonetti A, Arita M, and Mattarelli P

Subjects

Amino Acids analysis, Animals, Base Composition, Bifidobacterium chemistry, Bifidobacterium genetics, Bifidobacterium growth & development, DNA, Bacterial genetics, Egypt, Fatty Acids analysis, Genes, Essential genetics, Genetic Variation, Genome, Bacterial genetics, Nucleic Acid Hybridization, Peptidoglycan analysis, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Species Specificity, Bifidobacterium classification, Chiroptera microbiology, Feces microbiology, Phylogeny

Abstract

Fifteen bifidobacterial strains were obtained from faeces of Rousettus aegyptiacus; after grouping them by RAPD PCR only eight were selected and characterized. Analysis of 16S rRNA and of five housekeeping (hsp60, rpoB, clpC, dnaJ, dna G) genes revealed that these eight strains were classified into five clusters: Cluster I (RST 8 and RST 16 T ), Cluster II (RST 9 T and RST 27), Cluster III (RST 7 and RST 11), Cluster IV (RST 19), Cluster V (RST 17) were closest to Bifidobacterium avesanii DSM 100685 T (96.3%), Bifidobacterium callitrichos DSM 23973 T (99.2% and 99.7%), Bifidobacterium tissieri DSM 100201 T (99.7 and 99.2%), Bifidobacterium reuteri DSM 23975 T (98.9%) and Bifidobacterium myosotis DSM 100196 T (99.3%), respectively. Strains in Cluster I and strain RST 9 in Cluster II could not be placed within any recognized species while the other ones were identified as known species. The average nucleotide identity values between two novel strains, RST 16 T and RST 9 T and their closest relatives were lower than 79% and 89%, respectively. In silico DNA-DNA hybridization values for those closest relatives were 32.5 and 42.1%, respectively. Phenotypic and genotypic tests demonstrated that strains in Cluster I and RST 9 T in Cluster II represent two novel species for which the names Bifidobacterium vespertilionis sp. nov. (RST 16 T =BCRC 81138 T =NBRC 113380 T =DSM 106025 T ; RST 8=BCRC 81135=NBRC 113377) and Bifidobacterium rousetti sp. nov. (RST 9 T =BCRC 81136 T =NBRC 113378 T =DSM 106027 T ) are proposed., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

166. Diurnal variation in opsin expression and common housekeeping genes necessitates comprehensive normalization methods for quantitative real-time PCR analyses.

Author

Yourick MR, Sandkam BA, Gammerdinger WJ, Escobar-Camacho D, Nandamuri SP, Clark FE, Joyce B, Conte MA, Kocher TD, and Carleton KL

Subjects

Animals, Cichlids genetics, Real-Time Polymerase Chain Reaction methods, Retina metabolism, Retinal Cone Photoreceptor Cells physiology, Rod Opsins genetics, Transcriptome genetics, Genes, Essential genetics, Opsins genetics

Abstract

To determine the visual sensitivities of an organism of interest, quantitative reverse transcription-polymerase chain reaction (qRT-PCR) is often used to quantify expression of the light-sensitive opsins in the retina. While qRT-PCR is an affordable, high-throughput method for measuring expression, it comes with inherent normalization issues that affect the interpretation of results, especially as opsin expression can vary greatly based on developmental stage, light environment or diurnal cycles. We tested for diurnal cycles of opsin expression over a period of 24 hr at 1-hr increments and examined how normalization affects a data set with fluctuating expression levels using qRT-PCR and transcriptome data from the retinae of the cichlid Pelmatolapia mariae. We compared five methods of normalizing opsin expression relative to (a) the average of three stably expressed housekeeping genes (Ube2z, EF1-α and β-actin), (b) total RNA concentration, (c) GNAT2, (the cone-specific subunit of transducin), (d) total opsin expression and (e) only opsins expressed in the same cone type. Normalizing by proportion of cone type produced the least variation and would be best for removing time-of-day variation. In contrast, normalizing by housekeeping genes produced the highest daily variation in expression and demonstrated that the peak of cone opsin expression was in the late afternoon. A weighted correlation network analysis showed that the expression of different cone opsins follows a very similar daily cycle. With the knowledge of how these normalization methods affect opsin expression data, we make recommendations for designing sampling approaches and quantification methods based upon the scientific question being examined., (© 2019 John Wiley & Sons Ltd.)

Published

2019

167. Identification of 15 New Bypassable Essential Genes of Fission Yeast.

Author

Takeda A, Saitoh S, Ohkura H, Sawin KE, and Goshima G

Subjects

Genes, Essential genetics, Mutation, Genes, Fungal genetics, Schizosaccharomyces genetics

Abstract

Every organism has a different set of genes essential for its viability. This indicates that an organism can become tolerant to the loss of an essential gene under certain circumstances during evolution, via the manifestation of 'masked' alternative mechanisms. In our quest to systematically uncover masked mechanisms in eukaryotic cells, we developed an extragenic suppressor screening method using haploid spores deleted of an essential gene in the fission yeast Schizosaccharomyces pombe. We screened for the 'bypass' suppressors of lethality of 92 randomly selected genes that are essential for viability in standard laboratory culture conditions. Remarkably, extragenic mutations bypassed the essentiality of as many as 20 genes (22%), 15 of which have not been previously reported. Half of the bypass-suppressible genes were involved in mitochondria function; we also identified multiple genes regulating RNA processing. 18 suppressible genes were conserved in the budding yeast Saccharomyces cerevisiae, but 13 of them were non-essential in that species. These trends suggest that essentiality bypass is not a rare event and that each organism may be endowed with secondary or backup mechanisms that can substitute for primary mechanisms in various biological processes. Furthermore, the robustness of our simple spore-based methodology paves the way for genome-scale screening.Key words: Schizosaccharomyces pombe, extragenic suppressor screening, bypass of essentiality (BOE), cut7 (kinesin-5), hul5 (E3 ubiquitin ligase).

Published

2019

168. Large-scale identification of pathogen essential genes during coinfection with sympatric and allopatric microbes.

Author

Lewin GR, Stacy A, Michie KL, Lamont RJ, and Whiteley M

Subjects

Aggregatibacter genetics, Aggregatibacter actinomycetemcomitans pathogenicity, Animals, Coinfection, Genetic Fitness genetics, Mice, RNA, Ribosomal, 16S genetics, Aggregatibacter actinomycetemcomitans genetics, Genes, Essential genetics, Microbiota genetics, Sympatry genetics

Abstract

Recent evidence suggests that the genes an organism needs to survive in an environment drastically differ when alone or in a community. However, it is not known if there are universal functions that enable microbes to persist in a community and if there are functions specific to interactions between microbes native to the same (sympatric) or different (allopatric) environments. Here, we ask how the essential functions of the oral pathogen Aggregatibacter actinomycetemcomitans change during pairwise coinfection in a murine abscess with each of 15 microbes commonly found in the oral cavity and 10 microbes that are not. A. actinomycetemcomitans was more abundant when coinfected with allopatric than with sympatric microbes, and this increased fitness correlated with expanded metabolic capacity of the coinfecting microbes. Using transposon sequencing, we discovered that 33% of the A. actinomycetemcomitans genome is required for coinfection fitness. Fifty-nine "core" genes were required across all coinfections and included genes necessary for aerobic respiration. The core genes were also all required in monoinfection, indicating the essentiality of these genes cannot be alleviated by a coinfecting microbe. Furthermore, coinfection with some microbes, predominately sympatric species, induced the requirement for over 100 new community-dependent essential genes. In contrast, in other coinfections, predominately with nonoral species, A. actinomycetemcomitans required 50 fewer genes than in monoinfection, demonstrating that some allopatric microbes can drastically alleviate gene essentialities. These results expand our understanding of how diverse microbes alter growth and gene essentiality within polymicrobial infections., Competing Interests: The authors declare no conflict of interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

169. Evaluation of suitable reference genes in Brassica juncea and its wild relative Camelina sativa for qRT-PCR analysis under various stress conditions.

Author

Dixit S, Jangid VK, and Grover A

Subjects

Brassicaceae physiology, Genes, Essential genetics, Genes, Essential physiology, Genes, Plant physiology, Mustard Plant physiology, Real-Time Polymerase Chain Reaction, Stress, Physiological genetics, Stress, Physiological physiology, Transcriptome, Brassicaceae genetics, Genes, Plant genetics, Mustard Plant genetics

Abstract

Quantitative real-time PCR (qRT-PCR) is an efficient method to estimate the gene expression levels but the accuracy of its result largely depends on the stability of the reference gene. Many studies have reported considerable variation in the expression of reference genes (RGs) in different tissue and conditions. Therefore, screening for appropriate RGs with stable expression is crucial for functional analysis of the target gene. Two closely related crucifers Brassica juncea (cultivated) and Camelina sativa (wild) respond differently towards various abiotic and biotic stress where C. sativa exhibits higher tolerance to various stress. Comparative gene expression analysis of the target genes between two such species is the key approach to understand the mechanism of a plant's response to stress. However, using an unsuitable RG can lead to misinterpretation of expression levels of the target gene in such studies. In this investigation, the stability of seven candidate RGs including traditional housekeeping genes (HKGs) and novel candidate RGs were identified across diverse sample sets of B. juncea and C. sativa representing- hormone treated, wounded, Alternaria brassicae inoculated and combination treated samples (exogenous hormone treatment followed by A. brassicae inoculation). In this investigation, we identified stable RGs in both the species and the most suitable RGs to perform an unbiased comparative gene expression analysis between B. juncea and C. sativa. Results revealed that TIPS41 and PP2A were identified as the overall best performing RGs in both the species. However, the most suitable RG for each sample subset representing different condition must be individually selected. In Hormone treated and wounded samples TIPS41 expressed stably in both the species and in A. brassicae inoculated and combination treatment performance of PP2A was the best. In this study, for the first time, we have identified and validated stable reference gene in C. sativa for accurate normalization of gene expression data., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

170. Mitochondrial genomic variation drives differential nuclear gene expression in discrete regions of Drosophila gene and protein interaction networks.

Author

Mossman JA, Biancani LM, and Rand DM

Subjects

Amino Acid Motifs genetics, Animals, Cell Nucleus metabolism, Drosophila growth & development, Female, Gene Expression Regulation, Gene Regulatory Networks physiology, Genes, Essential genetics, Genes, Essential physiology, Genetic Variation, Genotype, Haplotypes, Male, Multigene Family, Phenotype, Protein Interaction Maps genetics, Protein Interaction Maps physiology, RNA, Untranslated genetics, RNA, Untranslated metabolism, RNA-Seq, Transcriptome, Cell Nucleus genetics, Drosophila genetics, Gene Regulatory Networks genetics, Genome, Mitochondrial genetics

Abstract

Background: Mitochondria perform many key roles in their eukaryotic hosts, from integrating signaling pathways through to modulating whole organism phenotypes. The > 1 billion years of nuclear and mitochondrial gene co-evolution has necessitated coordinated expression of gene products from both genomes that maintain mitochondrial, and more generally, eukaryotic cellular function. How mitochondrial DNA (mtDNA) variation modifies host fitness has proved a challenging question but has profound implications for evolutionary and medical genetics. In Drosophila, we have previously shown that recently diverged mtDNA haplotypes within-species can have more impact on organismal phenotypes than older, deeply diverged haplotypes from different species. Here, we tested the effects of mtDNA haplotype variation on gene expression in Drosophila under standardized conditions. Using the Drosophila Genetic Reference Panel (DGRP), we constructed a panel of mitonuclear genotypes that consists of factorial variation in nuclear and mtDNA genomes, with mtDNAs originating in D. melanogaster (2x haplotypes) and D. simulans (2x haplotypes)., Results: We show that mtDNA haplotype variation unequivocally alters nuclear gene expression in both females and males, and mitonuclear interactions are pervasive modifying factors for gene expression. There was appreciable overlap between the sexes for mtDNA-sensitive genes, and considerable transcriptional variation attributed to particular mtDNA contrasts. These genes are generally found in low-connectivity gene co-expression networks, occur in gene clusters along chromosomes, are often flanked by non-coding RNA, and are under-represented among housekeeping genes. Finally, we identify the giant (gt) transcription factor motif as a putative regulatory sequence associated with mtDNA-sensitive genes., Conclusions: There are predictive conditions for nuclear genes that are influenced by mtDNA variation.

Published

2019

171. Genomic analysis provides insights into the transmission and pathogenicity of Talaromyces marneffei.

Author

Li Y, Luo H, Fan J, Lan X, Liu G, Zhang J, Zhong X, Pang Y, Wang J, and He Z

Subjects

Animals, Antifungal Agents, DNA, Fungal, Fungal Proteins genetics, Genes, Essential genetics, Genotype, Humans, Multilocus Sequence Typing, Peptide Synthases genetics, Phylogeny, Polyketide Synthases genetics, Rats, Secondary Metabolism genetics, Talaromyces drug effects, Talaromyces isolation & purification, Virulence, Whole Genome Sequencing, Genome, Fungal genetics, Genomics, Talaromyces genetics, Virulence Factors genetics

Abstract

Talaromyces marneffei (T. marneffei) is a medically important opportunistic dimorphic fungus that infects both humans and bamboo rats. However, the mechanisms of transmission and pathogenicity of T. marneffei are poorly understood. In our study, we combined Illumina and PacBio sequencing technologies to sequence and assemble a complete genome of T. marneffei. To elucidate the transmission route and source, we sequenced three additional T. marneffei isolates using Illumina sequencing technology. Variations among isolates were used to develop a multilocus sequence typing (MLST) system comprising five housekeeping genes that can be used to discriminate between isolates derived from different sources. Our analysis revealed that human and bamboo rat share identical genotypes in these five loci. Thus, we hypothesized that T. marneffei is transmitted to humans through inhalation of spores in the surrounding environment into the lungs and that the bamboo rat can serve as an important natural reservoir for pathogens. Furthermore, we also identified temperature-dependent polyketide synthases, non-ribosomal peptide synthetases and secreted proteins as putative pathogenicity-related factors. In addition, we identified antifungal drug targets that can be investigated in future studies to elucidate the mechanisms underlying drug resistance. In summary, our study presents the basic features of the T. marneffei genome and provides insights into the transmission and pathogenicity of T. marneffei, which warrant fundamental experimental research., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

172. Construction of a novel Escherichia coli expression system: relocation of lpxA from chromosome to a constitutive expression vector.

Author

Zhao L, Hu X, Li Y, Wang Z, and Wang X

Subjects

Gene Deletion, Gene Expression, Genes, Essential genetics, Genetic Complementation Test, Plasmids genetics, Threonine biosynthesis, Acyltransferases genetics, Chromosomes, Bacterial genetics, Escherichia coli genetics, Genetic Vectors genetics

Abstract

The selective marker in the plasmid-based expression system is usually a gene that encodes an antibiotic-resistant protein; therefore, the antibiotic has to add to maintain the plasmid when growing the bacteria. This antibiotic addition would lead to increase of production cost and the environment contamination. In this study, a novel Escherichia coli expression system, the lpxA deletion mutant harboring an lpxA-carrying vector, was developed. To develop this system, three plasmids pCas9Cre, pTF-A-UD, and pRSFCmlpxA were constructed. The plasmid pCas9Cre produces enzymes Cas9, λ-Red, and Cre and can be cured by growing at 42 °C; pTF-A-UD contains several DNA fragments required for deleting the chromosomal lpxA and can be cured by adding isopropyl-D-thiogalactopyranoside; pRSFCmlpxA contains the lpxA mutant lpxA123 and CamR. When E. coli were transformed with these three plasmids, the chromosomal lpxA and the CamR in pRSFCmlpxA can be efficiently removed, resulting in an E. coli lpxA mutant harboring pRSFlpxA. The lpxA is essential for the growth of E. coli; its relocation from chromosome to a constitutive expression vector is an ideal strategy to maintain the vector without antibiotic addition. The lpxA123 in pRSFlpxA can complement the deletion of the chromosomal lpxA and provide a strong selective pressure to maintain the plasmid pRSFlpxA. This study provides an experimental evidence that this novel expression system is convenient and efficient to use and can be used to improve L-threonine biosynthesis in the wild type E. coli MG1655 and an L-threonine producing E. coli TWF006.

Published

2019

173. Ensifer fredii symbiovar vachelliae nodulates endemic Vachellia gummifera in semiarid Moroccan areas.

Author

Bouhnik O, ElFaik S, Alami S, Talbi C, Lamin H, Abdelmoumen H, Tortosa Muñoz G, J Bedmar E, and Missbah El Idrissi M

Subjects

DNA, Bacterial genetics, Genes, Bacterial genetics, Genes, Essential genetics, Host Specificity, Morocco, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Sinorhizobium genetics, Sinorhizobium growth & development, Fabaceae microbiology, Genetic Variation, Root Nodules, Plant microbiology, Sinorhizobium classification, Symbiosis genetics

Abstract

The purpose of this work was to study the genetic diversity of the nodule-forming bacteria associated with native populations of Vachellia gummifera growing wild in Morocco. The nearly complete 16S rRNA gene sequences from three selected strains, following ARDRA and REP-PCR results, revealed they were members of the genus Ensifer and the sequencing of the housekeeping genes recA, gyrB, dnaK and rpoB, and their concatenated phylogenetic analysis, showed that the 3 strains belong to the species E. fredii. Based on the nodC and nodA phylogenies, the 3 strains clearly diverged from the type and other reference strains of E. fredii and formed a clearly separated cluster. The strains AGA1, AGA2 and AGB23 did not form nodules on Glycine max, Phaseolus vulgaris and Medicago truncatula, and effectively nodulated V. gummifera, Acacia cyanophylla, Prosopis chilensis and Leucaena leucocephala. Based on similarities of the nodC and nodA symbiotic genes and differences in the host range, the strains isolated from Moroccan endemic V. gummifera may form a different symbiovar within Ensifer species, for which the name "vachelliae" is proposed., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

174. Reference gene selection for quantitative gene expression analysis in black soldier fly (Hermetia illucens).

Author

Gao Z, Deng W, and Zhu F

Subjects

Animals, Female, Male, Real-Time Polymerase Chain Reaction, Reference Standards, Gene Expression Profiling standards, Genes, Essential genetics, Genes, Insect genetics, Simuliidae genetics

Abstract

Hermetia illucens is an important resource insect for the conversion of organic waste. Quantitative PCR (qPCR) is the primary tool of gene expression analysis and a core technology of molecular biology research. Reference genes are essential for qPCR analysis; however, a stability analysis of H. illucens reference genes has not yet been carried out. To find suitable reference genes for normalizing gene expression data, the stability of eight housekeeping genes (including ATP6V1A, RPL8, EF1, Tubulin, TBP, GAPDH, Actin and RP49) was investigated under both biotic (developmental stages, tissues and sex) and abiotic (heavy metals, food, antibiotics) conditions. Gene expression data were analysed by geNorm, NormFinder, BestKeeper, and ΔCt programs. A set of specific reference genes was recommended for each experimental condition using the results of RefFinder synthesis analysis. This study offers a solid foundation for further studies of the molecular biology of H. illucens., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

175. Novel reference genes in colorectal cancer identify a distinct subset of high stage tumors and their associated histologically normal colonic tissues.

Author

Xu L, Luo H, Wang R, Wu WW, Phue JN, Shen RF, Juhl H, Wu L, Alterovitz WL, Simonyan V, Pelosof L, and Rosenberg AS

Subjects

Actins genetics, Actins metabolism, Biomarkers, Tumor genetics, Colon pathology, Colorectal Neoplasms pathology, Female, Gene Expression Profiling, Genes, Essential genetics, Glyceraldehyde-3-Phosphate Dehydrogenases genetics, Glyceraldehyde-3-Phosphate Dehydrogenases metabolism, High-Throughput Nucleotide Sequencing, Humans, Male, RNA, Messenger, Sequence Analysis, RNA, Colorectal Neoplasms genetics, Gene Expression Regulation, Neoplastic genetics, Genetic Association Studies, Genetic Predisposition to Disease genetics

Abstract

Background: Reference genes are often interchangeably called housekeeping genes due to 1) the essential cellular functions their proteins provide and 2) their constitutive expression across a range of normal and pathophysiological conditions. However, given the proliferative drive of malignant cells, many reference genes such as beta-actin (ACTB) and glyceraldehyde-3-phosphate-dehydrogenase (GAPDH) which play critical roles in cell membrane organization and glycolysis, may be dysregulated in tumors versus their corresponding normal controls METHODS: Because Next Generation Sequencing (NGS) technology has several advantages over hybridization-based technologies, such as independent detection and quantitation of transcription levels, greater sensitivity, and increased dynamic range, we evaluated colorectal cancers (CRC) and their histologically normal tissue counterparts by NGS to evaluate the expression of 21 "classical" reference genes used as normalization standards for PCR based methods. Seventy-nine paired tissue samples of CRC and their patient matched healthy colonic tissues were subjected to NGS analysis of their mRNAs., Results: We affirmed that 17 out of 21 classical reference genes had upregulated expression in tumors compared to normal colonic epithelial tissue and dramatically so in some cases. Indeed, tumors were distinguished from normal controls in both unsupervised hierarchical clustering analyses (HCA) and principal component analyses (PCA). We then identified 42 novel potential reference genes with minimal coefficients of variation (CV) across 79 CRC tumor pairs. Though largely consistently expressed across tumors and normal control tissues, a subset of high stage tumors (HSTs) as well as some normal tissue samples (HSNs) located adjacent to these HSTs demonstrated dysregulated expression, thus identifying a subset of tumors with a potentially distinct and aggressive biological profile., Conclusion: While classical CRC reference genes were found to be differentially expressed between tumors and normal controls, novel reference genes, identified via NGS, were more consistently expressed across malignant and normal colonic tissues. Nonetheless, a subset of HST had profound dysregulation of such genes as did many of the histologically normal tissues adjacent to such HSTs, indicating that the HSTs so distinguished may have unique biological properties and that their histologically normal tissues likely harbor a small population of microscopically undetected but metabolically active tumors.

Published

2019

176. Genome-wide Phenotypic Profiling Identifies and Categorizes Genes Required for Mycobacterial Low Iron Fitness.

Author

Dragset MS, Ioerger TR, Zhang YJ, Mærk M, Ginbot Z, Sacchettini JC, Flo TH, Rubin EJ, and Steigedal M

Subjects

ATP-Binding Cassette Transporters antagonists & inhibitors, ATP-Binding Cassette Transporters metabolism, Antitubercular Agents pharmacology, Antitubercular Agents therapeutic use, Bacterial Proteins antagonists & inhibitors, Bacterial Proteins metabolism, Drug Development, Gene Knockdown Techniques, Genes, Bacterial genetics, Genes, Essential genetics, Genetic Profile, Humans, Iron metabolism, Mycobacterium smegmatis metabolism, Mycobacterium tuberculosis drug effects, Mycobacterium tuberculosis metabolism, Siderophores antagonists & inhibitors, Tuberculosis drug therapy, Tuberculosis microbiology, ATP-Binding Cassette Transporters genetics, Bacterial Proteins genetics, Mycobacterium smegmatis genetics, Mycobacterium tuberculosis genetics, Siderophores metabolism

Abstract

Iron is vital for nearly all living organisms, but during infection, not readily available to pathogens. Infectious bacteria therefore depend on specialized mechanisms to survive when iron is limited. These mechanisms make attractive targets for new drugs. Here, by genome-wide phenotypic profiling, we identify and categorize mycobacterial genes required for low iron fitness. Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), can scavenge host-sequestered iron by high-affinity iron chelators called siderophores. We take advantage of siderophore redundancy within the non-pathogenic mycobacterial model organism M. smegmatis (Msmeg), to identify genes required for siderophore dependent and independent fitness when iron is low. In addition to genes with a potential function in recognition, transport or utilization of mycobacterial siderophores, we identify novel putative low iron survival strategies that are separate from siderophore systems. We also identify the Msmeg in vitro essential gene set, and find that 96% of all growth-required Msmeg genes have a mutual ortholog in Mtb. Of these again, nearly 90% are defined as required for growth in Mtb as well. Finally, we show that a novel, putative ferric iron ABC transporter contributes to low iron fitness in Msmeg, in a siderophore independent manner.

Published

2019

177. Environmental conditions shape the nature of a minimal bacterial genome.

Author

Antczak M, Michaelis M, and Wass MN

Subjects

Computational Biology methods, Genes, Essential genetics, Molecular Sequence Annotation methods, Software, Adaptation, Biological genetics, Bacteria genetics, Genome, Bacterial genetics

Abstract

Of the 473 genes in the genome of the bacterium with the smallest genome generated to date, 149 genes have unknown function, emphasising a universal problem; less than 1% of proteins have experimentally determined annotations. Here, we combine the results from state-of-the-art in silico methods for functional annotation and assign functions to 66 of the 149 proteins. Proteins that are still not annotated lack orthologues, lack protein domains, and/ or are membrane proteins. Twenty-four likely transporter proteins are identified indicating the importance of nutrient uptake into and waste disposal out of the minimal bacterial cell in a nutrient-rich environment after removal of metabolic enzymes. Hence, the environment shapes the nature of a minimal genome. Our findings also show that the combination of multiple different state-of-the-art in silico methods for annotating proteins is able to predict functions, even for difficult to characterise proteins and identify crucial gaps for further development.

Published

2019

178. Astragalus algarbiensis is nodulated by the genistearum symbiovar of Bradyrhizobium spp. in Morocco.

Author

Alami S, Lamin H, Bouhnik O, El Faik S, Filali-Maltouf A, Abdelmoumen H, Bedmar EJ, and Missbah El Idrissi M

Subjects

Biodiversity, Bradyrhizobium genetics, Cytisus microbiology, DNA, Bacterial genetics, DNA, Ribosomal genetics, Genes, Bacterial genetics, Genes, Essential genetics, Morocco, Root Nodules, Plant microbiology, Sequence Analysis, DNA, Symbiosis genetics, Astragalus Plant microbiology, Bradyrhizobium classification, Phylogeny, Plant Root Nodulation genetics, Soil Microbiology

Abstract

Astragalus algarbiensis is a wild herbaceous legume growing in Maamora, the most important cork oak forest in northern Africa. It is a plant of great importance as fodder in silvopastoral systems, and in the restoration of poor and degraded soils. The purpose of this study was to describe the biodiversity of rhizobia nodulating this plant and determine their identity. Out of 80 bacterial isolates, 56 strains isolated from root nodules of A. algarbiensis were characterized. ERIC-PCR fingerprinting grouped the strains in two main clusters containing 29 and 27 isolates, respectively, and the amplified ribosomal DNA restriction analysis (ARDRA) generated two different ribotypes. Based on both the ERIC-PCR and ARDRA results, representative strains As21 and As36 were selected for further genetic studies. The nearly complete 16S rRNA gene sequences of As21 and As36 showed that they were closely related to Bradyrhizobium cytisi CTAW11 T with similarity values of 99.84% and 99.77%, respectively. Concatenation of atpD, recA, gyrB and dnaK housekeeping gene sequences indicated that strains As21 and As36 had a 95.22% similarity but they showed values of 95.80% and 94.97% with B. cytisi CTAW11 T , respectively. The sequencing of the symbiotic nodC gene of the two strains revealed 97.20% and 97.76% identities, respectively, with that of B. cytisi CTAW11 T isolated from Cytisus villosus growing in the Moroccan Rif Mountains. Furthermore, the phylogenic analysis showed that the strains isolated from A. algarbiensis clustered with B. cytisi and B. rifense within the bradyrhizobia genistearum symbiovar and may constitute two novel genospecies., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

179. Genomic, phylogenetic and catabolic re-assessment of the Pseudomonas putida clade supports the delineation of Pseudomonas alloputida sp. nov., Pseudomonas inefficax sp. nov., Pseudomonas persica sp. nov., and Pseudomonas shirazica sp. nov.

Author

Keshavarz-Tohid V, Vacheron J, Dubost A, Prigent-Combaret C, Taheri P, Tarighi S, Taghavi SM, Moënne-Loccoz Y, and Muller D

Subjects

DNA, Bacterial genetics, Genes, Bacterial genetics, Genes, Essential genetics, Nucleic Acid Hybridization, Phenotype, Pseudomonas putida genetics, Sequence Analysis, DNA, Soil Microbiology, Species Specificity, Genome, Bacterial genetics, Phylogeny, Pseudomonas putida classification

Abstract

Bacteria of the Pseudomonas putida group are studied for a large panel of properties ranging from plant growth promotion and bioremediation to pathogenicity. To date, most of the classification of individual pseudomonads from this group relies on 16S RNA gene analysis, which is insufficient for accurate taxonomic characterization within bacterial species complexes of the Pseudomonas putida group. Here, a collection of 20 of these bacteria, isolated from various soils, was assessed via multi-locus sequence analysis of rpoD, gyrB and rrs genes. The 20 strains clustered in 7 different clades of the P. putida group. One strain per cluster was sequenced and results were compared to complete genome sequences of type strains of the P. putida group. Phylogenetic analyses, average nucleotide identity data and digital DNA hybridizations, combined to phenotypic characteristics, resulted in the proposition and description of four new species i.e. Pseudomonas alloputida Kh7 T (= LMG 29756 T  = CFBP 8484 T ) sp. nov., Pseudomonas inefficax JV551A3 T (= DSM108619 T = CFBP 8493 T ) sp. nov., Pseudomonas persica RUB6 T (= LMG 29757 T = CFBP 8486 T ) sp. nov. and Pseudomonas shirazica VM14 T (= LMG 29953 T = CFBP 8487 T ) sp. nov., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

180. Pantoea endophytica sp. nov., novel endophytic bacteria isolated from maize planting in different geographic regions of northern China.

Author

Gao JL, Xue J, Yan H, Tong S, Sayyar Khan M, Wang LW, Mao XJ, Zhang X, and Sun JG

Subjects

China, DNA, Bacterial genetics, Endophytes, Fatty Acids chemistry, Genes, Bacterial genetics, Genes, Essential genetics, Genome, Bacterial genetics, Pantoea chemistry, Pantoea genetics, Phenotype, Phospholipids chemistry, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Species Specificity, Ubiquinone chemistry, Pantoea classification, Pantoea physiology, Phylogeny, Zea mays microbiology

Abstract

Four endophytic bacterial strains were isolated from root, stem and leaf of maize planted in different regions of northern China. The four strains possessed almost identical 16S rRNA gene sequences. However, REP-PCR fingerprint patterns discriminated that they were not from one clonal origin. Furthermore, the average nucleotide identity (ANI) values among them were higher than 95%, suggesting they all belong to one species. Based on 16S rRNA gene phylogeny, the four strains were clustered together with Pantoea rodasii LMG 26273 T and Pantoea rwandensis LMG 26275 T , but on a separate branch. Multilocus sequence analysis (MLSA) indicated that the four strains form a novel Pantoea species. Authenticity of the novel species was confirmed by ANI comparisons between strain 596 T and its closest relatives, since obtained values were considerably below the proposed thresholds for the species delineation. The genome size of 596 T was 5.1Mbp, comprising 4896 predicted genes with DNA G+C content of 57.8mol%. The respiratory quinone was ubiquinone-8 (Q-8) and the polar lipid profile consisted of phosphatidylethanolamin, diphosphatidylglycerol, phosphatidylglycerol, unidentified aminophospholipid and unidentified phospholipid. The major fatty acids of strain 596 T were C 16:0 , summed feature 2 (C 12:0 aldehyde), summed feature 3 (C 16:1 ω7c and/or C 16:1 ω6c) and summed feature 8 (C 18:1 ω7c and/or C 18:1 ω6c). Based on phylogenetic, genomic, phenotypic and chemotaxonomic data, the four isolates are considered to represent a novel species of the genus Pantoea, for which the name Pantoea endophytica sp. nov., is proposed, with 596 T (=DSM 100,785 T =CGMCC 1.15280 T ) as type strain., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

181. Ecogenomic characterization of widespread, closely-related SAR11 clades of the freshwater genus "Candidatus Fonsibacter" and proposal of Ca. Fonsibacter lacus sp. nov.

Author

Tsementzi D, Rodriguez-R LM, Ruiz-Perez CA, Meziti A, Hatt JK, and Konstantinidis KT

Subjects

Bacterial Proteins genetics, DNA, Bacterial genetics, Genes, Essential genetics, Genetic Variation, Genomics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Southeastern United States, Species Specificity, Alphaproteobacteria classification, Alphaproteobacteria genetics, Fresh Water microbiology, Metagenome genetics, Phylogeny

Abstract

The ubiquitous alpha-proteobacteria of the order "Candidatus Pelagibacterales" (SAR11) are highly abundant in aquatic environments, and among them, members of the monophyletic lineage LD12 (also known as SAR11 clade IIIb) are specifically found in lacustrine ecosystems. Clade IIIb bacteria are some of the most prominent members of freshwater environments, but little is known about their biology due to the lack of genome representatives. Only recently, the first non-marine isolate was cultured and described as "Candidatus Fonsibacter ubiquis". Here, we expand the collection of freshwater IIIb representatives and describe a new IIIb species of the genus "Ca. Fonsibacter". Specifically, we assembled a collection of 67 freshwater metagenomic datasets from the interconnected lakes of the Chattahoochee River basin (GA, USA) and obtained nearly complete metagenome-assembled genomes (MAGs) representing 5 distinct IIIb subclades, roughly equivalent to species based on genomic standards, including the previously described "Ca. F. ubiquis". Genomic comparisons between members of the IIIb species revealed high similarity in gene content. However, when comparing their abundance profiles in the Chattahoochee basin and various aquatic environments, differences in temporal and spatial distributions among the distinct species were observed implying niche differentiation might be underlying the coexistence of the highly functionally similar representatives. The name Ca. Fonsibacter lacus sp. nov. is proposed for the most abundant and widespread species in the Chattahoochee River basin and various freshwater ecosystems., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

182. Defining housekeeping genes suitable for RNA-seq analysis of the human allograft kidney biopsy tissue.

Author

Wang Z, Lyu Z, Pan L, Zeng G, and Randhawa P

Subjects

Biopsy, Humans, RNA, Messenger genetics, Allografts metabolism, Genes, Essential genetics, Kidney metabolism, Kidney pathology, Sequence Analysis, RNA

Abstract

Background: RNA-seq is poised to play a major role in the management of kidney transplant patients. Rigorous definition of housekeeping genes (HKG) is essential for further progress in this field. Using single genes or a limited set HKG is inherently problematic since their expression might be altered by specific diseases in the patients being studied., Methods: To generate a HKG set specific for kidney transplantation, we performed RNA-sequencing from renal allograft biopsies collected in a variety of clinical settings. Various normalization methods were applied to identify transcripts that had a coefficient of variation of expression that was below the 2nd percentile across all samples, and the corresponding genes were designated as housekeeping genes. Comparison with transcriptomic data from the Gene Expression Omnibus (GEO) database, pathway analysis and molecular biological functions were utilized to validate the housekeeping genes set., Results: We have developed a bioinformatics solution to this problem by using nine different normalization methods to derive large HKG gene sets from a RNA-seq data set of 47,611 transcripts derived from 30 biopsies. These biopsies were collected in a variety of clinical settings, including normal function, acute rejection, interstitial nephritis, interstitial fibrosis/tubular atrophy and polyomavirus nephropathy. Transcripts with coefficient of variation below the 2nd percentile were designated as HKG, and validated by showing their virtual absence in diseased allograft derived transcriptomic data sets available in the GEO. Pathway analysis indicated a role for these genes in maintenance of cell morphology, pyrimidine metabolism, and intracellular protein signaling., Conclusions: Utilization of these objectively defined HKG data sets will guard against errors resulting from focusing on individual genes like 18S RNA, actin & tubulin, which do not maintain constant expression across the known spectrum of renal allograft pathology.

Published

2019

183. Essential gene deletions producing gigantic bacteria.

Author

Bailey J, Cass J, Gasper J, Ngo ND, Wiggins P, and Manoil C

Subjects

Acinetobacter enzymology, Anti-Bacterial Agents biosynthesis, Cell Cycle genetics, Cell Division genetics, Cell Wall enzymology, Cell Wall genetics, DNA Transposable Elements genetics, Escherichia coli genetics, Gene Deletion, Genome, Bacterial genetics, Peptidoglycan biosynthesis, Peptidyl Transferases genetics, Sequence Deletion genetics, Acinetobacter genetics, Genes, Essential genetics, Glycosyltransferases genetics, Peptidoglycan genetics

Abstract

To characterize the consequences of eliminating essential functions needed for peptidoglycan synthesis, we generated deletion mutations of Acinetobacter baylyi by natural transformation and visualized the resulting microcolonies of dead cells. We found that loss of genes required for peptidoglycan precursor synthesis or polymerization led to the formation of polymorphic giant cells with diameters that could exceed ten times normal. Treatment with antibiotics targeting early or late steps of peptidoglycan synthesis also produced giant cells. The giant cells eventually lysed, although they were partially stabilized by osmotic protection. Genome-scale transposon mutant screening (Tn-seq) identified mutations that blocked or accelerated giant cell formation. Among the mutations that blocked the process were those inactivating a function predicted to cleave murein glycan chains (the MltD murein lytic transglycosylase), suggesting that giant cell formation requires MltD hydrolysis of existing peptidoglycan. Among the mutations that accelerated giant cell formation after ß-lactam treatment were those inactivating an enzyme that produces unusual 3->3 peptide cross-links in peptidoglycan (the LdtG L,D-transpeptidase). The mutations may weaken the sacculus and make it more vulnerable to further disruption. Although the study focused on A. baylyi, we found that a pathogenic relative (A. baumannii) also produced giant cells with genetic dependencies overlapping those of A. baylyi. Overall, the analysis defines a genetic pathway for giant cell formation conserved in Acinetobacter species in which independent initiating branches converge to create the unusual cells., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

184. Comprehensive analysis of the phylogeny and extracellular proteases in genus Vibrio strain.

Author

Liu D, Wu C, Wu R, Huang J, Liao B, Lei M, Zhang Y, and He H

Subjects

Amino Acid Sequence, Animals, Biological Evolution, Cloning, Molecular, Electrophoresis, Polyacrylamide Gel, Fishes microbiology, Genes, Essential genetics, Metalloproteases genetics, Metalloproteases metabolism, Peptide Hydrolases metabolism, Proteolysis, RNA, Ribosomal, 16S genetics, Seawater microbiology, Sequence Analysis, Serine Proteases genetics, Serine Proteases metabolism, Species Specificity, Substrate Specificity, Vibrio classification, Vibrio pathogenicity, Peptide Hydrolases classification, Peptide Hydrolases genetics, Phylogeny, Vibrio enzymology, Vibrio genetics

Abstract

As one of the dominant bacteria in the ocean, Vibrio play important roles in maintaining the aquatic ecosystem. In this study, we studied the phylogenetic relationships of 32 Vibrio based on the 16S rRNA genes sequences and utilized substrate immersing zymography method to detect the trend of protease production and components of multiprotease system of Vibrio extracellular proteases. The result showed that different extracellular proteolytic profiles among various Vibrio strains demonstrated a large interspecific variation, and for strains from the same environments, the closer the evolutionary relationship of them, the more similar their zymograms were. In addition, these proteases displayed very different hydrolysis abilities to casein and gelatin. Moreover, the results of the inhibitor-substrate immersing zymography indicated that the proteases secreted by marine Vibrio mostly belonged to serine proteases or metalloproteases. These results implied that combined taxonomic information of the Vibrios with their extracellular protease zymograms maybe contributed to the study of the classification, phylogeny and pathogenic mechanism of Vibrio, and can serve as a theoretical basis for controlling the pathogenic Vibrio disease as well as exploiting proteases. More importantly, we can also eliminate many similar strains by this way, thus can greatly reduce the workload of the experiments for us., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

185. Identification and Validation of Novel Reference Genes in Acute Lymphoblastic Leukemia for Droplet Digital PCR.

Author

Villegas-Ruíz V, Olmos-Valdez K, Castro-López KA, Saucedo-Tepanecatl VE, Ramírez-Chiquito JC, Pérez-López EI, Medina-Vera I, and Juárez-Méndez S

Subjects

Adaptor Proteins, Signal Transducing genetics, Alkyl and Aryl Transferases genetics, Autophagy-Related Proteins genetics, Cell Line, Tumor, Gene Expression Profiling standards, Genes, Essential genetics, Humans, Polymerase Chain Reaction methods, Proteasome Endopeptidase Complex genetics, RNA, Reference Standards, Transcriptome, Gene Expression Profiling methods, Precursor Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics

Abstract

Droplet digital PCR is the most robust method for absolute nucleic acid quantification. However, RNA is a very versatile molecule and its abundance is tissue-dependent. RNA quantification is dependent on a reference control to estimate the abundance. Additionally, in cancer, many cellular processes are deregulated which consequently affects the gene expression profiles. In this work, we performed microarray data mining of different childhood cancers and healthy controls. We selected four genes that showed no gene expression variations ( PSMB6 , PGGT1B , UBQLN2 and UQCR2 ) and four classical reference genes ( ACTB , GAPDH , RPL4 and RPS18). Gene expression was validated in 40 acute lymphoblastic leukemia samples by means of droplet digital PCR. We observed that PSMB6 , PGGT1B , UBQLN2 and UQCR2 were expressed ~100 times less than ACTB , GAPDH , RPL4 and RPS18 . However, we observed excellent correlations among the new reference genes ( p < 0.0001). We propose that PSMB6 , PGGT1B , UBQLN2 and UQCR2 are housekeeping genes with low expression in childhood cancer.

Published

2019

186. Multilocus Sequence Analysis, a Rapid and Accurate Tool for Taxonomic Classification, Evolutionary Relationship Determination, and Population Biology Studies of the Genus Shewanella .

Author

Fang Y, Wang Y, Liu Z, Dai H, Cai H, Li Z, Du Z, Wang X, Jing H, Wei Q, Kan B, and Wang D

Subjects

Bacterial Typing Techniques, Base Composition, China, DNA, Bacterial genetics, Food Microbiology, Genes, Bacterial genetics, Genes, Essential genetics, Humans, Phenotype, RNA, Ribosomal, 16S genetics, Reproducibility of Results, Sequence Analysis, DNA, Biological Evolution, Multilocus Sequence Typing methods, Phylogeny, Shewanella classification, Shewanella genetics, Shewanella isolation & purification

Abstract

The genus Shewanella comprises a group of marine-dwelling species with worldwide distribution. Several species are regarded as causative agents of food spoilage and opportunistic pathogens of human diseases. In this study, a standard multilocus sequence analysis (MLSA) based on six protein-coding genes ( gyrA , gyrB , infB , recN , rpoA , and topA ) was established as a rapid and accurate identification tool in 59 Shewanella type strains. This method yielded sufficient resolving power in regard to enough informative sites, adequate sequence divergences, and distinct interspecies branches. The stability of phylogenetic topology was supported by high bootstrap values and concordance with different methods. The reliability of the MLSA scheme was further validated by identical phylogenies and high correlations of genomes. The MLSA approach provided a robust system to exhibit evolutionary relationships in the Shewanella genus. The split network tree proposed twelve distinct monophyletic clades with identical G+C contents and high genetic similarities. A total of 86 tested strains were investigated to explore the population biology of the Shewanella genus in China. The most prevalent Shewanella species was Shewanella algae , followed by Shewanella xiamenensis , Shewanella chilikensis , Shewanella indica , Shewanella seohaensis , and Shewanella carassii The strains frequently isolated from clinical and food samples highlighted the importance of increasing the surveillance of Shewanella species. Based on the combined genetic, genomic, and phenotypic analyses, Shewanella upenei should be considered a synonym of S. algae , and Shewanella pacifica should be reclassified as a synonym of Shewanella japonica IMPORTANCE The MLSA scheme based on six housekeeping genes (HKGs) ( gyrA , gyrB , infB , recN , rpoA , and topA ) is well established as a reliable tool for taxonomic, evolutionary, and population diversity analyses of the genus Shewanella in this study. The standard MLSA method allows researchers to make rapid, economical, and precise identification of Shewanella strains. The robust phylogenetic network of MLSA provides profound insight into the evolutionary structure of the genus Shewanella The population genetics of Shewanella species determined by the MLSA approach plays a pivotal role in clinical diagnosis and routine monitoring. Further studies on remaining species and genomic analysis will enhance a more comprehensive understanding of the microbial systematics, phylogenetic relationships, and ecological status of the genus Shewanella ., (Copyright © 2019 American Society for Microbiology.)

Published

2019

187. Phylogeny and distribution of Bradyrhizobium symbionts nodulating cowpea (Vigna unguiculata L. Walp) and their association with the physicochemical properties of acidic African soils.

Author

Puozaa DK, Jaiswal SK, and Dakora FD

Subjects

Bradyrhizobium genetics, Bradyrhizobium physiology, DNA, Bacterial genetics, DNA, Ribosomal genetics, Genes, Essential genetics, Genetic Variation, Ghana, Hydrogen-Ion Concentration, Polymorphism, Restriction Fragment Length, Sequence Analysis, DNA, South Africa, Bradyrhizobium classification, Bradyrhizobium growth & development, Phylogeny, Root Nodules, Plant microbiology, Soil chemistry, Soil Microbiology, Symbiosis genetics, Vigna microbiology

Abstract

In the N 2 -fixing symbiosis, the choice of a symbiotic partner is largely influenced by the host plant, the rhizobial symbiont, as well as soil factors. Understanding the soil environment conducive for the survival and multiplication of root-nodule bacteria is critical for microbial ecology. In this study, we collected cowpea-nodules from acidic soils in Ghana and South Africa, and nodule DNA isolates were characterized using 16S-23S rRNA-RFLP, phylogenetic analysis of housekeeping and symbiotic genes, and bradyrhizobial community structure through canonical correspondence analysis (CCA). The CCA ordination plot results showed that arrow of soil pH was overlapping on CCA2 axis and was the most important to the ordination. The test nodule DNA isolates from Ghana were positively influenced by soil Zn, Na and K while nodule DNA isolates from South Africa were influenced by P. The amplified 16S-23S rRNA region yielded single polymorphic bands of varying lengths (573-1298bp) that were grouped into 28 ITS types. The constructed ITS-dendrogram placed all the nodule DNA isolates in five major clusters at low cut-off of approx. 0.1 Jaccard's similarity coefficient. The phylogenetic analysis of 16S rRNA and housekeeping genes (glnII, gyrB, and atpD) formed distinct Bradyrhizobium groups in the phylogenetic trees. It revealed the presence of highly diverse bradyrhizobia (i.e. Bradyrhizobium vignae, Bradyrhizobium elkanii, Bradyrhizobium iriomotense, Bradyrhizobium pachyrhizi, and Bradyrhizobium yuanmingense) together with novel/unidentified bradyrhizobia in the acidic soils from Ghana and South Africa. Discrepancies noted in the phylogenies of some nodule DNA isolates could be attributed to horizontal gene transfer or recombination., (Copyright © 2019 The Author. Published by Elsevier GmbH.. All rights reserved.)

Published

2019

188. Total synthesis of Escherichia coli with a recoded genome.

Author

Fredens J, Wang K, de la Torre D, Funke LFH, Robertson WE, Christova Y, Chia T, Schmied WH, Dunkelmann DL, Beránek V, Uttamapinant C, Llamazares AG, Elliott TS, and Chin JW

Subjects

Amino Acids genetics, Codon, Terminator genetics, Escherichia coli growth & development, Escherichia coli metabolism, Genes, Essential genetics, RNA, Transfer genetics, Cell Engineering methods, Escherichia coli genetics, Genetic Code genetics, Genome, Bacterial genetics, Synthetic Biology methods

Abstract

Nature uses 64 codons to encode the synthesis of proteins from the genome, and chooses 1 sense codon-out of up to 6 synonyms-to encode each amino acid. Synonymous codon choice has diverse and important roles, and many synonymous substitutions are detrimental. Here we demonstrate that the number of codons used to encode the canonical amino acids can be reduced, through the genome-wide substitution of target codons by defined synonyms. We create a variant of Escherichia coli with a four-megabase synthetic genome through a high-fidelity convergent total synthesis. Our synthetic genome implements a defined recoding and refactoring scheme-with simple corrections at just seven positions-to replace every known occurrence of two sense codons and a stop codon in the genome. Thus, we recode 18,214 codons to create an organism with a 61-codon genome; this organism uses 59 codons to encode the 20 amino acids, and enables the deletion of a previously essential transfer RNA.

Published

2019

189. Pectobacterium zantedeschiae sp. nov. a new species of a soft rot pathogen isolated from Calla lily (Zantedeschia spp.).

Author

Waleron M, Misztak A, Waleron M, Franczuk M, Jońca J, Wielgomas B, Mikiciński A, Popović T, and Waleron K

Subjects

Bacterial Proteins genetics, Computational Biology, DNA, Bacterial genetics, Fatty Acids analysis, Genes, Essential genetics, Genome, Bacterial genetics, Pectobacterium chemistry, Pectobacterium genetics, Poland, Proteomics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Serbia, Species Specificity, Pectobacterium classification, Phylogeny, Plant Diseases microbiology, Zantedeschia microbiology

Abstract

Four Gram-negative, rod-shaped pectinolytic bacterial strains designated as 2M, 9M, DPMP599 and DPMP600 were subjected to polyphasic analyses that revealed their distinctiveness from the other Pectobacterium species. Strains 2M and 9M were isolated from Calla lily bulbs cultivated in Central Poland. DPMP599 and DPMP600 strains were isolated from Calla lily leaves from plants grown in Serbia. Phylogenetic analyses based on nine housekeeping genes (gapA, gyrA, icdA, pgi, proA, recA, recN, rpoA, and rpoS), as well as phylogeny based on the 381 most conserved universal proteins confirmed that Pectobacterium zantedeschiae strains were distantly related to the other Pectobacterium, and indicated Pectobacterium atrosepticum, Pectobacterium betavasculorum, Pectobacterium parmentieri and Pectobacterium wasabiae as the closest relatives. Moreover, the analysis revealed that Pectobacterium zantedeschiae strains are not akin to Pectobacterium aroidearum strains, which were likewise isolated from Calla lily. The genome sequencing of the strains 2M, 9M and DPMP600 and their comparison with whole genome sequences of other Pectobacterium type strains confirmed their distinctiveness and separate species status within the genus based on parameters of in silico DNA-DNA hybridization and average nucleotide identity (ANI) values. The MALDI-TOF MS proteomic profile supported the proposition of delineation of the P. zantedeschiae and additionally confirmed the individuality of the studied strains. Based on of all of these data, it is proposed that the strains 2M, 9M, DPMP599, and DPMP600 isolated from Calla lily, previously assigned as P. atrosepticum should be reclassified as Pectobacterium zantedeschiae sp. nov. with the strain 9M T (PCM2893=DSM105717=IFB9009) as the type strain., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2019

190. Phylogenetic diversity of Bradyrhizobium strains isolated from root nodules of Lupinus angustifolius grown wild in the North East of Algeria.

Author

Mellal H, Yacine B, Boukaous L, Khouni S, Benguedouar A, Castellano-Hinojosa A, and Bedmar EJ

Subjects

Algeria, Bradyrhizobium genetics, Bradyrhizobium physiology, DNA, Bacterial genetics, Genes, Bacterial genetics, Genes, Essential genetics, Host Specificity, Plant Root Nodulation, RNA, Ribosomal, 16S genetics, Random Amplified Polymorphic DNA Technique, Sequence Analysis, DNA, Symbiosis genetics, Bradyrhizobium classification, Lupinus microbiology, Phylogeny, Root Nodules, Plant microbiology

Abstract

From a total of 80 bacterial strains isolated from root nodules of Lupinus angustifolius grown wild in the North-Eastern Algerian region of El Tarf, 64 plant host-nodulating strains clustered into 17 random amplified polymorphic DNA (RAPD) fingerprinting groups. The nearly complete 16S rRNA gene sequence from the representative strain of each group revealed they were closely related to members of the genus Bradyrhizobium of the Alphaproteobacteria, but their affiliation at the species level was not clear. Sequencing of the housekeeping genes glnII and recA, and their concatenated phylogenetic analysis, showed that 12 strains belong to B. lupini, other 2 strains affiliated with B. diazoefficiens and that 1 strain was closely related to B. japonicum. The remaining two strains showed similarity values ≤95% with B. cytisi and could represent new lineages within the genus Bradyrhizobium. Sequencing of the symbiotic nodC gene from 4 selected bradyrhizobial strains showed they were all similar to those of the species included in symbiovar genistearum., (Copyright © 2019 Elsevier GmbH. All rights reserved.)

Published

2019

191. An Accessible Continuous-Culture Turbidostat for Pooled Analysis of Complex Libraries.

Author

McGeachy AM, Meacham ZA, and Ingolia NT

Subjects

Bacteria genetics, Binding Sites genetics, Genes, Essential genetics, Genome genetics, Mutation genetics, Saccharomyces cerevisiae genetics, Cell Culture Techniques methods, Genomics methods

Abstract

We present an accessible, robust continuous-culture turbidostat system that greatly facilitates the generation and phenotypic analysis of highly complex libraries in yeast and bacteria. Our system has many applications in genomics and systems biology; here, we demonstrate three of these uses. We first measure how the growth rate of budding yeast responds to limiting nitrogen at steady state and in a dynamically varying environment. We also demonstrate the direct selection of a diverse, genome-scale protein fusion library in liquid culture. Finally, we perform a comprehensive mutational analysis of the essential gene RPL28 in budding yeast, mapping sequence constraints on its wild-type function and delineating the binding site of the drug cycloheximide through resistance mutations. Our system can be constructed and operated with no specialized skills or equipment and applied to study genome-wide mutant pools and diverse libraries of sequence variants under well-defined growth conditions.

Published

2019

192. Chemical synthesis rewriting of a bacterial genome to achieve design flexibility and biological functionality.

Author

Venetz JE, Del Medico L, Wölfle A, Schächle P, Bucher Y, Appert D, Tschan F, Flores-Tinoco CE, van Kooten M, Guennoun R, Deutsch S, Christen M, and Christen B

Subjects

Caulobacter crescentus physiology, Codon genetics, DNA, Bacterial chemical synthesis, DNA, Bacterial genetics, Genes, Essential genetics, Genome, Bacterial physiology, Genomics, Caulobacter crescentus genetics, Genetic Engineering methods, Genome, Bacterial genetics, Synthetic Biology methods

Abstract

Understanding how to program biological functions into artificial DNA sequences remains a key challenge in synthetic genomics. Here, we report the chemical synthesis and testing of Caulobacter ethensis-2.0 ( C. eth-2.0 ), a rewritten bacterial genome composed of the most fundamental functions of a bacterial cell. We rebuilt the essential genome of Caulobacter crescentus through the process of chemical synthesis rewriting and studied the genetic information content at the level of its essential genes. Within the 785,701-bp genome, we used sequence rewriting to reduce the number of encoded genetic features from 6,290 to 799. Overall, we introduced 133,313 base substitutions, resulting in the rewriting of 123,562 codons. We tested the biological functionality of the genome design in C. crescentus by transposon mutagenesis. Our analysis revealed that 432 essential genes of C. eth-2.0 , corresponding to 81.5% of the design, are equal in functionality to natural genes. These findings suggest that neither changing mRNA structure nor changing the codon context have significant influence on biological functionality of synthetic genomes. Discovery of 98 genes that lost their function identified essential genes with incorrect annotation, including a limited set of 27 genes where we uncovered noncoding control features embedded within protein-coding sequences. In sum, our results highlight the promise of chemical synthesis rewriting to decode fundamental genome functions and its utility toward the design of improved organisms for industrial purposes and health benefits., Competing Interests: Conflict of interest statement: Eidgenössische Technische Hochschule holds a patent application (WO2017085249A1) with M.C. and B.C. as inventors that covers functional testing of synthetic genomes. M.C. and B.C. hold shares from Gigabases Switzerland AG., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

193. Essential Gene Profiles for Human Pluripotent Stem Cells Identify Uncharacterized Genes and Substrate Dependencies.

Author

Mair B, Tomic J, Masud SN, Tonge P, Weiss A, Usaj M, Tong AHY, Kwan JJ, Brown KR, Titus E, Atkins M, Chan KSK, Munsie L, Habsid A, Han H, Kennedy M, Cohen B, Keller G, and Moffat J

Subjects

Cell Differentiation, Humans, Clustered Regularly Interspaced Short Palindromic Repeats genetics, Gene Expression Regulation genetics, Genes, Essential genetics, Pluripotent Stem Cells metabolism

Abstract

Human pluripotent stem cells (hPSCs) provide an invaluable tool for modeling diseases and hold promise for regenerative medicine. For understanding pluripotency and lineage differentiation mechanisms, a critical first step involves systematically cataloging essential genes (EGs) that are indispensable for hPSC fitness, defined as cell reproduction in this study. To map essential genetic determinants of hPSC fitness, we performed genome-scale loss-of-function screens in an inducible Cas9 H1 hPSC line cultured on feeder cells and laminin to identify EGs. Among these, we found FOXH1 and VENTX, genes that encode transcription factors previously implicated in stem cell biology, as well as an uncharacterized gene, C22orf43/DRICH1. hPSC EGs are substantially different from other human model cell lines, and EGs in hPSCs are highly context dependent with respect to different growth substrates. Our CRISPR screens establish parameters for genome-wide screens in hPSCs, which will facilitate the characterization of unappreciated genetic regulators of hPSC biology., (Copyright © 2019 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2019

194. RNA interference and validation of reference genes for gene expression analyses using qPCR in southern pine beetle, Dendroctonus frontalis.

Author

Kyre BR, Rodrigues TB, and Rieske LK

Subjects

Animals, Coleoptera genetics, Forests, Gene Silencing physiology, Genes, Essential genetics, Insecta genetics, Pinus, RNA Interference physiology, RNA, Double-Stranded pharmacology, Real-Time Polymerase Chain Reaction methods, Real-Time Polymerase Chain Reaction standards, Pest Control methods, Weevils genetics

Abstract

RNA interference (RNAi) is a highly specific gene-silencing mechanism that can cause rapid insect mortality when essential genes are targeted. RNAi is being developed as a tool for integrated pest management of some crop pests. Here we focus on an aggressive forest pest that kills extensive tracts of pine forests, the southern pine beetle (SPB), Dendroctonus frontalis. We sought to identify reference genes for quantitative real-time PCR (qPCR) and validate RNAi responses in SPB by mortality and gene silencing analysis. Using an adult beetle feeding bioassay for oral ingestion of dsRNA, we measured the expression and demonstrated knockdown of target genes as well as insect mortality after ingestion of target genes. Our study validates reference genes for expression analyses and demonstrates highly effective RNAi responses in SPB, with RNAi response to some target dsRNAs causing 100% beetle mortality after ingestion.

Published

2019

195. Classification of the inoculant strain of cowpea UFLA03-84 and of other strains from soils of the Amazon region as Bradyrhizobium viridifuturi (symbiovar tropici).

Author

Martins da Costa E, Soares de Carvalho T, Azarias Guimarães A, Ribas Leão AC, Magalhães Cruz L, de Baura VA, Lebbe L, Willems A, and de Souza Moreira FM

Subjects

Bacterial Proteins genetics, Bacterial Typing Techniques, Bradyrhizobium isolation & purification, Brazil, DNA Gyrase genetics, DNA-Directed RNA Polymerases genetics, Genome, Bacterial genetics, Membrane Proteins genetics, Multilocus Sequence Typing, N-Acetylglucosaminyltransferases genetics, Nitrogen Fixation genetics, Oxidoreductases genetics, RNA, Ribosomal, 16S genetics, Rec A Recombinases genetics, Soil Microbiology, Bradyrhizobium classification, Bradyrhizobium genetics, Genes, Essential genetics, Root Nodules, Plant microbiology, Vigna microbiology

Abstract

Cowpea (Vigna unguiculata L.) is a legume species that considerably benefits from inoculation with nitrogen fixing bacteria of the genus Bradyrhizobium. One of the strains recommended for inoculation in cowpea in Brazil is UFLA03-84 (Bradyrhizobium sp.). The aim of our study was to define the taxonomic position of the UFLA03-84 strain and of two other strains of Bradyrhizobium (UFLA03-144 and INPA237B), all belonging to the same phylogenetic group and isolated from soils of the Brazilian Amazon. Multilocus sequence analysis (MLSA) of the housekeeping genes atpD, gyrB, recA, and rpoB grouped (with similarity higher than 99%) the three strains with Bradyrhizobium viridifuturi SEMIA 690 T . The analyses of average nucleotide identity and digital DNA-DNA hybridization supported classification of the group as Bradyrhizobium viridifuturi. The three strains exhibited similar behavior in relation to the most of the phenotypic characteristics evaluated. However, some characteristics exhibited variation, indicating phenotypic diversity within the species. Phylogenetic analysis of the nodC and nifH genes showed that the three strains are members of the same symbiovar (tropici) that contains type strains of Bradyrhizobium species coming from tropical soils (SEMIA 690 T B. viridifuturi, CNPSo 1112 T B. tropiciagri, CNPSo 2833 T B. embrapense, and B. brasilense UFLA03-321 T ).

Published

2019

196. The bare necessities: Uncovering essential and condition-critical genes with transposon sequencing.

Author

Shields RC and Jensen PA

Subjects

Drug Delivery Systems, Genes, Essential drug effects, Genome, Bacterial, High-Throughput Nucleotide Sequencing instrumentation, High-Throughput Nucleotide Sequencing methods, Microbial Interactions genetics, Mutagenesis, Insertional, Phenotype, Sequence Analysis instrumentation, Sequence Analysis, DNA instrumentation, Bacteria genetics, DNA Transposable Elements genetics, Genes, Essential genetics, Mouth microbiology, Sequence Analysis methods, Sequence Analysis, DNA methods

Abstract

Querying gene function in bacteria has been greatly accelerated by the advent of transposon sequencing (Tn-seq) technologies (related Tn-seq strategies are known as TraDIS, INSeq, RB-TnSeq, and HITS). Pooled populations of transposon mutants are cultured in an environment and next-generation sequencing tools are used to determine areas of the genome that are important for bacterial fitness. In this review we provide an overview of Tn-seq methodologies and discuss how Tn-seq has been applied, or could be applied, to the study of oral microbiology. These applications include studying the essential genome as a means to rationally design therapeutic agents. Tn-seq has also contributed to our understanding of well-studied biological processes in oral bacteria. Other important applications include in vivo pathogenesis studies and use of Tn-seq to probe the molecular basis of microbial interactions. We also highlight recent advancements in techniques that act in synergy with Tn-seq such as clustered regularly interspaced short palindromic repeats (CRISPR) interference and microfluidic chip platforms., (© 2019 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2019

197. Identification of atpD as an optimal reference gene to explore antibiotic resistance and stress tolerance in Rahnella aquatilis.

Author

Li L, Li J, Peng J, Wu W, and Guo Y

Subjects

Anti-Bacterial Agents metabolism, Gene Expression Regulation, Bacterial, Genes, Essential genetics, Rahnella physiology, Real-Time Polymerase Chain Reaction standards, Reference Standards, Drug Resistance, Microbial genetics, Gene Expression Profiling standards, Genes, Bacterial genetics, Rahnella genetics, Stress, Physiological genetics

Abstract

Aims: Rahnella aquatilis is a Gram-negative bacterial species with potential for agricultural and industrial applications, as well as a human pathogen. This study aims to identify an optimal reference gene to explore antibiotic resistance and stress tolerance in R. aquatilis using reverse-transcription quantitative polymerase chain reaction (RT-qPCR)., Methods and Results: Expression levels of 14 housekeeping genes in R. aquatilis were estimated by RT-qPCR under six different conditions: exponential phase, stationary phase, acid, salinity, antibiotic and oxidative stresses. BestKeeper and the ΔCt method were used to evaluate the stability of each gene. The atpD gene was stably expressed in all conditions, thus was selected and validated as an optimal reference gene. Transcript levels of 17 putative ampicillin-resistance genes in R. aquatilis strain HX2 were evaluated using the proposed RT-qPCR. Six genes encoding efflux transporters and β-lactamase were overexpressed after ampicillin treatment. Additionally, the expression of seven putative stress response genes in strain HX2 was assessed, and five genes were up-regulated by respective stress treatments., Conclusions: The atpD gene has been identified as an optimal reference gene for expression analysis of R. aquatilis responses to abiotic stresses by RT-qPCR., Significance and Impact of the Study: The proposed RT-qPCR is suitable for gene expression analysis in R. aquatilis, thus useful for studying antimicrobial resistance and stress tolerance in this bacterium and others closely related., (© 2019 The Society for Applied Microbiology.)

Published

2019

198. Cleave and Rescue, a novel selfish genetic element and general strategy for gene drive.

Author

Oberhofer G, Ivy T, and Hay BA

Subjects

Alleles, Animals, Behavior, Animal, CRISPR-Associated Protein 9 genetics, Female, Gene Knockout Techniques, Genes, X-Linked, Genetics, Population, Genotype, Germ Cells, Male, Models, Genetic, Phenotype, Population Dynamics, Transgenes, X Chromosome, RNA, Guide, CRISPR-Cas Systems, Drosophila melanogaster genetics, Gene Drive Technology methods, Genes, Essential genetics, Repetitive Sequences, Nucleic Acid

Abstract

There is great interest in being able to spread beneficial traits throughout wild populations in ways that are self-sustaining. Here, we describe a chromosomal selfish genetic element, CleaveR [Cleave and Rescue ( ClvR )], able to achieve this goal. ClvR comprises two linked chromosomal components. One, germline-expressed Cas9 and guide RNAs (gRNAs)-the Cleaver-cleaves and thereby disrupts endogenous copies of a gene whose product is essential. The other, a recoded version of the essential gene resistant to cleavage and gene conversion with cleaved copies-the Rescue-provides essential gene function. ClvR enhances its transmission, and that of linked genes, by creating conditions in which progeny lacking ClvR die because they have no functional copies of the essential gene. In contrast, those who inherit ClvR survive, resulting in an increase in ClvR frequency. ClvR is predicted to spread to fixation under diverse conditions. To test these predictions, we generated a ClvR element in Drosophila melanogaster ClvR tko is located on chromosome 3 and uses Cas9 and four gRNAs to disrupt melanogaster technical knockout ( tko ), an X-linked essential gene. Rescue activity is provided by tko from Drosophila virilis ClvR tko results in germline and maternal carryover-dependent inactivation of melanogaster tko (>99% per generation); lethality caused by this loss is rescued by the virilis transgene; ClvR tko activities are robust to genetic diversity in strains from five continents; and uncleavable but functional melanogaster tko alleles were not observed. Finally, ClvR tko spreads to transgene fixation. The simplicity of ClvR suggests it may be useful for altering populations in diverse species., Competing Interests: Conflict of interest statement: The authors have filed patent applications on ClvR and related technologies (US Application No. 15/970,728)., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

199. Selection of reference genes for the quantitative real-time PCR normalization of gene expression in Isatis indigotica fortune.

Author

Qu R, Miao Y, Cui Y, Cao Y, Zhou Y, Tang X, Yang J, and Wang F

Subjects

Reference Standards, Gene Expression Profiling standards, Gene Expression Regulation, Plant genetics, Genes, Essential genetics, Isatis genetics, Real-Time Polymerase Chain Reaction standards

Abstract

Background: Isatis indigotica, a traditional Chinese medicine, produces a variety of active ingredients. However, little is known about the key genes and corresponding expression profiling involved in the biosynthesis pathways of these ingredients. Quantitative real-time polymerase chain reaction (qRT-PCR) is a powerful, commonly-used method for gene expression analysis, but the accuracy of the quantitative data produced depends on the appropriate selection of reference genes., Results: In this study, the systematic analysis of the reference genes was performed for quantitative real-Time PCR normalization in I. indigotica. We selected nine candidate reference genes, including six traditional housekeeping genes (ACT, α-TUB, β-TUB, UBC, CYP, and EF1-α), and three newly stable internal control genes (MUB, TIP41, and RPL) from a transcriptome dataset of I. indigotica, and evaluated their expression stabilities in different tissues (root, stem, leaf, and petiole) and leaves exposed to three abiotic treatments (low-nitrogen, ABA, and MeJA) using geNorm, NormFinder, BestKeeper, and comprehensive RefFind algorithms. The results demonstrated that MUB and EF1-α were the two most stable reference genes for all samples. TIP41 as the optimal reference gene for low-nitrogen stress and MeJA treatment, while ACT had the highest ranking for ABA treatment and CYP was the most suitable for different tissues., Conclusions: The results revealed that the selection and validation of appropriate reference genes for normalizing data is mandatory to acquire accurate quantification results. The necessity of specific internal control for specific conditions was also emphasized. Furthermore, this work will provide valuable information to enhance further research in gene function and molecular biology on I. indigotica and other related species.

Published

2019

200. Ochrobactrum cytisi IPA7.2 promotes growth of potato microplants and is resistant to abiotic stress.

Author

Burygin GL, Kargapolova KY, Kryuchkova YV, Avdeeva ES, Gogoleva NE, Ponomaryova TS, and Tkachenko OV

Subjects

Genes, Bacterial genetics, Genes, Essential genetics, Glycine adverse effects, Glycine analogs & derivatives, Indoleacetic Acids metabolism, Multilocus Sequence Typing, Ochrobactrum classification, Ochrobactrum genetics, Ochrobactrum isolation & purification, Phylogeny, Plant Leaves growth & development, Plant Leaves microbiology, Plant Roots growth & development, Plant Roots microbiology, Plant Shoots growth & development, Plant Shoots microbiology, RNA, Ribosomal, 16S genetics, Salinity, Salt Tolerance, Sodium Chloride, Soil Microbiology, Thermotolerance, Glyphosate, Ochrobactrum physiology, Plant Development, Solanum tuberosum growth & development, Solanum tuberosum microbiology, Stress, Physiological

Abstract

Bacteria in natural associations with agricultural crops are promising for use in the improvement of clonal micropropagation of plants. We clarified the taxonomic position of Ochrobactrum cytisi strain IPA7.2 and investigated its tolerance for salinity, high temperature, and glyphosate pollution. We also tested the strain's potential to promote the growth of potato (Solanum tuberosum L.) microplants. Using the IPA7.2 draft genome (no. NZ&#95;MOEC00000000), we searched for housekeeping genes and also for the target genes encoding glyphosate tolerance and plant-growth-promoting ability. A multilocus sequence analysis of the gap, rpoB, dnaK, trpE, aroC, and recA housekeeping genes led us to identify isolate IPA7.2 as O. cytisi. The strain tolerated temperatures up to 50 °C and NaCl concentrations up to 3-4%, and it produced 8 µg ml -1 of indole-3-acetic acid. It also tolerated 6 mM glyphosate owing to the presence of type II 5-enolpyruvylshikimate-3-phosphate synthase. Finally, it was able to colonize the roots and tissues of potato microplants, an ability preserved by several generations after subculturing. We identified the development phase of potato microplants that was optimal for inoculation with O. cytisi IPA7.2. Inoculation of in vitro-grown 15-day-old microplants increased the mitotic index of root meristem cells (by 50%), the length of shoots (by 34%), the number of leaves (by 7%), and the number of roots (by 16%). Under ex vitro conditions, the inoculated plants had a greater leaf area (by 77%) and greater shoot and root dry weight (by 84 and 61%, respectively) than did the control plants. We recommend O. cytisi IPA 7.2 for use in the growing of potato microplants to improve the production of elite seed material.

Published

2019