Your search keyword '"Reeve, Wayne"' showing total 543 results

1. Discovery of a novel filamentous prophage in the genome of the Mimosa pudica microsymbiont Cupriavidus taiwanensis STM 6018

Author

Klonowska, Agnieszka, Ardley, Julie, Moulin, Lionel, Zandberg, Jaco, Patrel, Delphine, Gollagher, Margaret, Marinova, Dora, Reddy, TBK, Varghese, Neha, Huntemann, Marcel, Woyke, Tanja, Seshadri, Rekha, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Betaproteobacteria, root-nodule bacteria, bacteriophage, filamentous phage, symbiosis, Environmental Science and Management, Soil Sciences, Medical microbiology

Abstract

Integrated virus genomes (prophages) are commonly found in sequenced bacterial genomes but have rarely been described in detail for rhizobial genomes. Cupriavidus taiwanensis STM 6018 is a rhizobial Betaproteobacteria strain that was isolated in 2006 from a root nodule of a Mimosa pudica host in French Guiana, South America. Here we describe features of the genome of STM 6018, focusing on the characterization of two different types of prophages that have been identified in its genome. The draft genome of STM 6018 is 6,553,639 bp, and consists of 80 scaffolds, containing 5,864 protein-coding genes and 61 RNA genes. STM 6018 contains all the nodulation and nitrogen fixation gene clusters common to symbiotic Cupriavidus species; sharing >99.97% bp identity homology to the nod/nif/noeM gene clusters from C. taiwanensis LMG19424T and "Cupriavidus neocalidonicus" STM 6070. The STM 6018 genome contains the genomes of two prophages: one complete Mu-like capsular phage and one filamentous phage, which integrates into a putative dif site. This is the first characterization of a filamentous phage found within the genome of a rhizobial strain. Further examination of sequenced rhizobial genomes identified filamentous prophage sequences in several Beta-rhizobial strains but not in any Alphaproteobacterial rhizobia.

Published

2023

2. The Genome of the Acid Soil-Adapted Strain Rhizobium favelukesii OR191 Encodes Determinants for Effective Symbiotic Interaction With Both an Inverted Repeat Lacking Clade and a Phaseoloid Legume Host

Author

Eardly, Bertrand, Osman, Wan Adnawani Meor, Ardley, Julie, Zandberg, Jaco, Gollagher, Margaret, van Berkum, Peter, Elia, Patrick, Marinova, Dora, Seshadri, Rekha, Reddy, TBK, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Kyrpides, Nikos, Loedolff, Matthys, Laird, Damian W, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, symbiotic nitrogen fixation, host-bacteria interaction, acid soils, Medicago sativa, Phaseolus vulgaris, host—bacteria interaction, Environmental Science and Management, Soil Sciences, Medical microbiology

Abstract

Although Medicago sativa forms highly effective symbioses with the comparatively acid-sensitive genus Ensifer, its introduction into acid soils appears to have selected for symbiotic interactions with acid-tolerant R. favelukesii strains. Rhizobium favelukesii has the unusual ability of being able to nodulate and fix nitrogen, albeit sub-optimally, not only with M. sativa but also with the promiscuous host Phaseolus vulgaris. Here we describe the genome of R. favelukesii OR191 and genomic features important for the symbiotic interaction with both of these hosts. The OR191 draft genome contained acid adaptation loci, including the highly acid-inducible lpiA/acvB operon and olsC, required for production of lysine- and ornithine-containing membrane lipids, respectively. The olsC gene was also present in other acid-tolerant Rhizobium strains but absent from the more acid-sensitive Ensifer microsymbionts. The OR191 symbiotic genes were in general more closely related to those found in Medicago microsymbionts. OR191 contained the nodA, nodEF, nodHPQ, and nodL genes for synthesis of polyunsaturated, sulfated and acetylated Nod factors that are important for symbiosis with Medicago, but contained a truncated nodG, which may decrease nodulation efficiency with M. sativa. OR191 contained an E. meliloti type BacA, which has been shown to specifically protect Ensifer microsymbionts from Medicago nodule-specific cysteine-rich peptides. The nitrogen fixation genes nifQWZS were present in OR191 and P. vulgaris microsymbionts but absent from E. meliloti-Medicago microsymbionts. The ability of OR191 to nodulate and fix nitrogen symbiotically with P. vulgaris indicates that this host has less stringent requirements for nodulation than M. sativa but may need rhizobial strains that possess nifQWZS for N2-fixation to occur. OR191 possessed the exo genes required for the biosynthesis of succinoglycan, which is required for the Ensifer-Medicago symbiosis. However, 1H-NMR spectra revealed that, in the conditions tested, OR191 exopolysaccharide did not contain a succinyl substituent but instead contained a 3-hydroxybutyrate moiety, which may affect its symbiotic performance with Medicago hosts. These findings provide a foundation for the genetic basis of nodulation requirements and symbiotic effectiveness with different hosts.

Published

2022

3. Competition in the Phaseolus vulgaris-Rhizobium symbiosis and the role of resident soil rhizobia in determining the outcomes of inoculation

Author

Mwenda, George M., Hill, Yvette J., O’Hara, Graham W., Reeve, Wayne G., Howieson, John G., and Terpolilli, Jason J.

Published

2023

4. Novel heavy metal resistance gene clusters are present in the genome of Cupriavidus neocaledonicus STM 6070, a new species of Mimosa pudica microsymbiont isolated from heavy-metal-rich mining site soil

Author

Klonowska, Agnieszka, Moulin, Lionel, Ardley, Julie Kaye, Braun, Florence, Gollagher, Margaret Mary, Zandberg, Jaco Daniel, Marinova, Dora Vasileva, Huntemann, Marcel, Reddy, TBK, Varghese, Neha Jacob, Woyke, Tanja, Ivanova, Natalia, Seshadri, Rekha, Kyrpides, Nikos, and Reeve, Wayne Gerald

Subjects

Microbiology, Biological Sciences, Genetics, Biotechnology, Cadmium, Cupriavidus, Metals, Heavy, Mimosa, Multigene Family, Nickel, Phylogeny, RNA, Ribosomal, 16S, Rhizobium, Soil, Soil Microbiology, Symbiosis, Synteny, Zinc, Rhizobia, Nickel tolerance, HGT, Rhizobial biogeography, Heavy metal resistance, Heavy metal efflux, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences

Abstract

BackgroundCupriavidus strain STM 6070 was isolated from nickel-rich soil collected near Koniambo massif, New Caledonia, using the invasive legume trap host Mimosa pudica. STM 6070 is a heavy metal-tolerant strain that is highly effective at fixing nitrogen with M. pudica. Here we have provided an updated taxonomy for STM 6070 and described salient features of the annotated genome, focusing on heavy metal resistance (HMR) loci and heavy metal efflux (HME) systems.ResultsThe 6,771,773 bp high-quality-draft genome consists of 107 scaffolds containing 6118 protein-coding genes. ANI values show that STM 6070 is a new species of Cupriavidus. The STM 6070 symbiotic region was syntenic with that of the M. pudica-nodulating Cupriavidus taiwanensis LMG 19424T. In contrast to the nickel and zinc sensitivity of C. taiwanensis strains, STM 6070 grew at high Ni2+ and Zn2+ concentrations. The STM 6070 genome contains 55 genes, located in 12 clusters, that encode HMR structural proteins belonging to the RND, MFS, CHR, ARC3, CDF and P-ATPase protein superfamilies. These HMR molecular determinants are putatively involved in arsenic (ars), chromium (chr), cobalt-zinc-cadmium (czc), copper (cop, cup), nickel (nie and nre), and silver and/or copper (sil) resistance. Seven of these HMR clusters were common to symbiotic and non-symbiotic Cupriavidus species, while four clusters were specific to STM 6070, with three of these being associated with insertion sequences. Within the specific STM 6070 HMR clusters, three novel HME-RND systems (nieIC cep nieBA, czcC2B2A2, and hmxB zneAC zneR hmxS) were identified, which constitute new candidate genes for nickel and zinc resistance.ConclusionsSTM 6070 belongs to a new Cupriavidus species, for which we have proposed the name Cupriavidus neocaledonicus sp. nov.. STM6070 harbours a pSym with a high degree of gene conservation to the pSyms of M. pudica-nodulating C. taiwanensis strains, probably as a result of recent horizontal transfer. The presence of specific HMR clusters, associated with transposase genes, suggests that the selection pressure of the New Caledonian ultramafic soils has driven the specific adaptation of STM 6070 to heavy-metal-rich soils via horizontal gene transfer.

Published

2020

5. Evolution of a multi‐step phosphorelay signal transduction system in Ensifer: recruitment of the sigma factor RpoN and a novel enhancer‐binding protein triggers acid‐activated gene expression

Author

Tian, Rui, Heiden, Stephan, Osman, Wan AM, Ardley, Julie K, James, Euan K, Gollagher, Margaret M, Tiwari, Ravi, Seshadri, Rekha, Kyrpides, Nikos C, and Reeve, Wayne G

Subjects

Biological Sciences, Genetics, Biotechnology, Acids, Animals, Binding Sites, DNA, Bacterial, DNA-Binding Proteins, Evolution, Molecular, Gene Expression Regulation, Bacterial, Genes, Bacterial, Nitrogen Fixation, Promoter Regions, Genetic, Sigma Factor, Signal Transduction, Sinorhizobium, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology, Biological sciences

Abstract

Most Ensifer strains are comparatively acid sensitive, compromising their persistence in low pH soils. In the acid-tolerant strain Ensifer medicae WSM419, the acid-activated expression of lpiA is essential for enhancing survival in lethal acidic conditions. Here we characterise a multi-step phosphorelay signal transduction pathway consisting of TcsA, TcrA, FsrR, RpoN and its cognate enhancer-binding protein EbpA, which is required for the induction of lpiA and the downstream acvB gene. The fsrR, tcrA, tcsA and rpoN genes were constitutively expressed, whereas lpiA and acvB were strongly acid-induced. RACE mapping revealed that lpiA/acvB were co-transcribed as an operon from an RpoN promoter. In most Ensifer species, lpiA/acvB is located on the chromosome and the sequence upstream of lpiA lacks an RpoN-binding site. Nearly all Ensifer meliloti strains completely lack ebpA, tcrA, tcsA and fsrR regulatory loci. In contrast, E. medicae strains have lpiA/acvB and ebpA/tcrA/tcsA/fsrR co-located on the pSymA megaplasmid, with lpiA/acvB expression coupled to an RpoN promoter. Here we provide a model for the expression of lpiA/acvB in E. medicae. This unique acid-activated regulatory system provides insights into an evolutionary process which may assist the adaptation of E. medicae to acidic environmental niches.

Published

2017

6. High-quality draft genome sequence of Rhizobium mesoamericanum strain STM6155, a Mimosa pudica microsymbiont from New Caledonia.

Author

Klonowska, Agnieszka, López-López, Aline, Moulin, Lionel, Ardley, Julie, Gollagher, Margaret, Marinova, Dora, Tian, Rui, Huntemann, Marcel, Reddy, TBK, Varghese, Neha, Woyke, Tanja, Markowitz, Victor, Ivanova, Natalia, Seshadri, Rekha, Baeshen, Mohamed N, Baeshen, Nabih A, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Alphaproteobacteria, Mimosa, Nitrogen fixation, Rhizobium, Root-nodule bacteria, Genetics, Human Genome, Biochemistry and Cell Biology

Abstract

Rhizobium mesoamericanum STM6155 (INSCD = ATYY01000000) is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as an effective nitrogen fixing microsymbiont of the legume Mimosa pudica L.. STM6155 was isolated in 2009 from a nodule of the trap host M. pudica grown in nickel-rich soil collected near Mont Dore, New Caledonia. R. mesoamericanum STM6155 was selected as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) genome sequencing project. Here we describe the symbiotic properties of R. mesoamericanum STM6155, together with its genome sequence information and annotation. The 6,927,906 bp high-quality draft genome is arranged into 147 scaffolds of 152 contigs containing 6855 protein-coding genes and 71 RNA-only encoding genes. Strain STM6155 forms an ANI clique (ID 2435) with the sequenced R. mesoamericanum strain STM3625, and the nodulation genes are highly conserved in these strains and the type strain of Rhizobium grahamii CCGE501T. Within the STM6155 genome, we have identified a chr chromate efflux gene cluster of six genes arranged into two putative operons and we postulate that this cluster is important for the survival of STM6155 in ultramafic soils containing high concentrations of chromate.

Published

2017

7. High-quality permanent draft genome sequence of the Bradyrhizobium elkanii type strain USDA 76T, isolated from Glycine max (L.) Merr

Author

Reeve, Wayne, van Berkum, Peter, Ardley, Julie, Tian, Rui, Gollagher, Margaret, Marinova, Dora, Elia, Patrick, Reddy, TBK, Pillay, Manoj, Varghese, Neha, Seshadri, Rekha, Ivanova, Natalia, Woyke, Tanja, Baeshen, Mohamed N, Baeshen, Nabih A, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Root-nodule bacteria, GEBA-RNB, Nitrogen fixation, Bradyrhizobium, Soybean, Type III secretion system

Abstract

Bradyrhizobium elkanii USDA 76T (INSCD = ARAG00000000), the type strain for Bradyrhizobium elkanii, is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen-fixing root nodule of Glycine max (L. Merr) grown in the USA. Because of its significance as a microsymbiont of this economically important legume, B. elkanii USDA 76T was selected as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria sequencing project. Here the symbiotic abilities of B. elkanii USDA 76T are described, together with its genome sequence information and annotation. The 9,484,767 bp high-quality draft genome is arranged in 2 scaffolds of 25 contigs, containing 9060 protein-coding genes and 91 RNA-only encoding genes. The B. elkanii USDA 76T genome contains a low GC content region with symbiotic nod and fix genes, indicating the presence of a symbiotic island integration. A comparison of five B. elkanii genomes that formed a clique revealed that 356 of the 9060 protein coding genes of USDA 76T were unique, including 22 genes of an intact resident prophage. A conserved set of 7556 genes were also identified for this species, including genes encoding a general secretion pathway as well as type II, III, IV and VI secretion system proteins. The type III secretion system has previously been characterized as a host determinant for Rj and/or rj soybean cultivars. Here we show that the USDA 76T genome contains genes encoding all the type III secretion system components, including a translocon complex protein NopX required for the introduction of effector proteins into host cells. While many bradyrhizobial strains are unable to nodulate the soybean cultivar Clark (rj1), USDA 76T was able to elicit nodules on Clark (rj1), although in reduced numbers, when plants were grown in Leonard jars containing sand or vermiculite. In these conditions, we postulate that the presence of NopX allows USDA 76T to introduce various effector molecules into this host to enable nodulation.

Published

2017

8. High-quality draft genome sequence of Ensifer meliloti Mlalz-1, a microsymbiont of Medicago laciniata (L.) miller collected in Lanzarote, Canary Islands, Spain

Author

Osman, Wan Adnawani Meor, van Berkum, Peter, León-Barrios, Milagros, Velázquez, Encarna, Elia, Patrick, Tian, Rui, Ardley, Julie, Gollagher, Margaret, Seshadri, Rekha, Reddy, TBK, Ivanova, Natalia, Woyke, Tanja, Pati, Amrita, Markowitz, Victor, Baeshen, Mohamed N, Baeshen, Naseebh Nabeeh, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Infectious Diseases, Biotechnology, Emerging Infectious Diseases, Root-nodule bacteria, Ensifer, Geba-Rnb, Medicago, lpiA-acvB operon

Abstract

10.1601/nm.1335 Mlalz-1 (INSDC = ATZD00000000) is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen-fixing nodule of Medicago laciniata (L.) Miller from a soil sample collected near the town of Guatiza on the island of Lanzarote, the Canary Islands, Spain. This strain nodulates and forms an effective symbiosis with the highly specific host M. laciniata. This rhizobial genome was sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) sequencing project. Here the features of 10.1601/nm.1335 Mlalz-1 are described, together with high-quality permanent draft genome sequence information and annotation. The 6,664,116 bp high-quality draft genome is arranged in 99 scaffolds of 100 contigs, containing 6314 protein-coding genes and 74 RNA-only encoding genes. Strain Mlalz-1 is closely related to 10.1601/nm.1335 10.1601/strainfinder?urlappend=%3Fid%3DIAM+12611 T, 10.1601/nm.1334 A 321T and 10.1601/nm.17831 10.1601/strainfinder?urlappend=%3Fid%3DORS+1407 T, based on 16S rRNA gene sequences. gANI values of ≥98.1% support the classification of strain Mlalz-1 as 10.1601/nm.1335. Nodulation of M. laciniata requires a specific nodC allele, and the nodC gene of strain Mlalz-1 shares ≥98% sequence identity with nodC of M. laciniata-nodulating 10.1601/nm.1328 strains, but ≤93% with nodC of 10.1601/nm.1328 strains that nodulate other Medicago species. Strain Mlalz-1 is unique among sequenced 10.1601/nm.1335 strains in possessing genes encoding components of a T2SS and in having two versions of the adaptive acid tolerance response lpiA-acvB operon. In 10.1601/nm.1334 strain 10.1601/strainfinder?urlappend=%3Fid%3DWSM+419, lpiA is essential for enhancing survival in lethal acid conditions. The second copy of the lpiA-acvB operon of strain Mlalz-1 has highest sequence identity (> 96%) with that of 10.1601/nm.1334 strains, which suggests genetic recombination between strain Mlalz-1 and 10.1601/nm.1334 and the horizontal gene transfer of lpiA-acvB.

Published

2017

9. Accumulation of Large Lineage-Specific Repeats Coincides with Sequence Acceleration and Structural Rearrangement in Plantago Plastomes.

Author

Wang, Jie, Kan, Shenglong, Kong, Jiali, Nie, Liyun, Fan, Weishu, Ren, Yonglin, Reeve, Wayne, Mower, Jeffrey P, and Wu, Zhiqiang

Subjects

GENE conversion, PLANT genomes, NUCLEOTIDE sequencing, DNA repair, PLANTAGO

Abstract

Repeats can mediate rearrangements and recombination in plant mitochondrial genomes and plastid genomes. While repeat accumulations are linked to heightened evolutionary rates and complex structures in specific lineages, debates persist regarding the extent of their influence on sequence and structural evolution. In this study, 75 Plantago plastomes were analyzed to investigate the relationships between repeats, nucleotide substitution rates, and structural variations. Extensive repeat accumulations were associated with significant rearrangements and inversions in the large inverted repeats (IRs), suggesting that repeats contribute to rearrangement hotspots. Repeats caused infrequent recombination that potentially led to substoichiometric shifting, supported by long-read sequencing. Repeats were implicated in elevating evolutionary rates by facilitating localized hypermutation, likely through DNA damage and repair processes. This study also observed a decrease in nucleotide substitution rates for loci translocating into IRs, supporting the role of biased gene conversion in maintaining lower substitution rates. Combined with known parallel changes in mitogenomes, it is proposed that potential dysfunction in nuclear-encoded genes associated with DNA replication, recombination, and repair may drive the evolution of Plantago organellar genomes. These findings contribute to understanding how repeats impact organellar evolution and stability, particularly in rapidly evolving plant lineages. [ABSTRACT FROM AUTHOR]

Published

2024

10. Symbiotic Burkholderia Species Show Diverse Arrangements of nif/fix and nod Genes and Lack Typical High-Affinity Cytochrome cbb3 Oxidase Genes.

Author

De Meyer, Sofie E, Briscoe, Leah, Martínez-Hidalgo, Pilar, Agapakis, Christina M, de-Los Santos, Paulina Estrada, Seshadri, Rekha, Reeve, Wayne, Weinstock, George, O'Hara, Graham, Howieson, John G, and Hirsch, Ann M

Subjects

Microbiology, Biological Sciences, Genetics, Bacterial Proteins, Burkholderia, Cupriavidus, Electron Transport Complex IV, Gene Transfer, Horizontal, Genome, Bacterial, Mimosa, Nitrogen, Nitrogen Fixation, Phylogeny, Plant Root Nodulation, RNA, Ribosomal, 16S, Symbiosis, Transcription Factors, Plant Biology, Plant Biology & Botany, Plant biology

Abstract

Genome analysis of fourteen mimosoid and four papilionoid beta-rhizobia together with fourteen reference alpha-rhizobia for both nodulation (nod) and nitrogen-fixing (nif/fix) genes has shown phylogenetic congruence between 16S rRNA/MLSA (combined 16S rRNA gene sequencing and multilocus sequence analysis) and nif/fix genes, indicating a free-living diazotrophic ancestry of the beta-rhizobia. However, deeper genomic analysis revealed a complex symbiosis acquisition history in the beta-rhizobia that clearly separates the mimosoid and papilionoid nodulating groups. Mimosoid-nodulating beta-rhizobia have nod genes tightly clustered in the nodBCIJHASU operon, whereas papilionoid-nodulating Burkholderia have nodUSDABC and nodIJ genes, although their arrangement is not canonical because the nod genes are subdivided by the insertion of nif and other genes. Furthermore, the papilionoid Burkholderia spp. contain duplications of several nod and nif genes. The Burkholderia nifHDKEN and fixABC genes are very closely related to those found in free-living diazotrophs. In contrast, nifA is highly divergent between both groups, but the papilionoid species nifA is more similar to alpha-rhizobia nifA than to other groups. Surprisingly, for all Burkholderia, the fixNOQP and fixGHIS genes required for cbb3 cytochrome oxidase production and assembly are missing. In contrast, symbiotic Cupriavidus strains have fixNOQPGHIS genes, revealing a divergence in the evolution of two distinct electron transport chains required for nitrogen fixation within the beta-rhizobia.

Published

2016

11. High-quality permanent draft genome sequence of Ensifer sp. PC2, isolated from a nitrogen-fixing root nodule of the legume tree (Khejri) native to the Thar Desert of India

Author

Gehlot, Hukam Singh, Ardley, Julie, Tak, Nisha, Tian, Rui, Poonar, Neetu, Meghwal, Raju R, Rathi, Sonam, Tiwari, Ravi, Adnawani, Wan, Seshadri, Rekha, Reddy, TBK, Pati, Amrita, Woyke, Tanja, Pillay, Manoj, Markowitz, Victor, Baeshen, Mohammed N, Al-Hejin, Ahmed M, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Ensifer, Prosopis

Abstract

Ensifer sp. PC2 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from a nitrogen-fixing nodule of the tree legume P. cineraria (L.) Druce (Khejri), which is a keystone species that grows in arid and semi-arid regions of the Indian Thar desert. Strain PC2 exists as a dominant saprophyte in alkaline soils of Western Rajasthan. It is fast growing, well-adapted to arid conditions and is able to form an effective symbiosis with several annual crop legumes as well as species of mimosoid trees and shrubs. Here we describe the features of Ensifer sp. PC2, together with genome sequence information and its annotation. The 8,458,965 bp high-quality permanent draft genome is arranged into 171 scaffolds of 171 contigs containing 8,344 protein-coding genes and 139 RNA-only encoding genes, and is one of the rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project proposal.

Published

2016

12. Discovery of Novel Plant Interaction Determinants from the Genomes of 163 Root Nodule Bacteria.

Author

Seshadri, Rekha, Reeve, Wayne G, Ardley, Julie K, Tennessen, Kristin, Woyke, Tanja, Kyrpides, Nikos C, and Ivanova, Natalia N

Subjects

Rhizobium, Fabaceae, Bacterial Proteins, Phylogeny, Nitrogen Fixation, Symbiosis, Species Specificity, Gene Expression Regulation, Bacterial, Genes, Bacterial, Genome, Bacterial, Operon, Geography, Root Nodules, Plant, Host-Pathogen Interactions, Plant Root Nodulation, Gene Expression Regulation, Bacterial, Genes, Genome, Root Nodules, Plant, Biochemistry and Cell Biology, Other Physical Sciences

Abstract

Root nodule bacteria (RNB) or "rhizobia" are a type of plant growth promoting bacteria, typified by their ability to fix nitrogen for their plant host, fixing nearly 65% of the nitrogen currently utilized in sustainable agricultural production of legume crops and pastures. In this study, we sequenced the genomes of 110 RNB from diverse hosts and biogeographical regions, and undertook a global exploration of all available RNB genera with the aim of identifying novel genetic determinants of symbiotic association and plant growth promotion. Specifically, we performed a subtractive comparative analysis with non-RNB genomes, employed relevant transcriptomic data, and leveraged phylogenetic distribution patterns and sequence signatures based on known precepts of symbiotic- and host-microbe interactions. A total of 184 protein families were delineated, including known factors for nodulation and nitrogen fixation, and candidates with previously unexplored functions, for which a role in host-interaction, -regulation, biocontrol, and more, could be posited. These analyses expand our knowledge of the RNB purview and provide novel targets for strain improvement in the ultimate quest to enhance plant productivity and agricultural sustainability.

Published

2015

13. High-quality permanent draft genome sequence of Bradyrhizobium sp. Tv2a.2, a microsymbiont of Tachigali versicolor discovered in Barro Colorado Island of Panama

Author

Tian, Rui, Parker, Matthew, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Baeshen, Mohammed N, Baeshen, Nabih A, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria, GEBA-RNB

Abstract

Bradyrhizobiumsp. Tv2a.2 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen-fixing root nodule of Tachigali versicolor collected in Barro Colorado Island of Panama. Here we describe the features of Bradyrhizobiumsp. Tv2a.2, together with high-quality permanent draft genome sequence information and annotation. The 8,496,279 bp high-quality draft genome is arranged in 87 scaffolds of 87 contigs, contains 8,109 protein-coding genes and 72 RNA-only encoding genes. This rhizobial genome was sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2015

14. High-quality permanent draft genome sequence of the Parapiptadenia rigida-nodulating Cupriavidus sp. strain UYPR2.512

Author

De Meyer, Sofie E, Fabiano, Elena, Tian, Rui, Van Berkum, Peter, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia N, Pati, Amrita, Woyke, Tanja, Howieson, John, Kyrpides, Nikos C, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Betaproteobacteria, GEBA-RNB

Abstract

Cupriavidus sp. strain UYPR2.512 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from a root nodule of Parapiptadenia rigida grown in soils from a native forest of Uruguay. Here we describe the features of Cupriavidus sp. strain UYPR2.512, together with sequence and annotation. The 7,858,949 bp high-quality permanent draft genome is arranged in 365 scaffolds of 369 contigs, contains 7,411 protein-coding genes and 76 RNA-only encoding genes, and is part of the GEBA-RNB project proposal.

Published

2015

15. High-quality permanent draft genome sequence of Rhizobium leguminosarum bv. viciae strain GB30; an effective microsymbiont of Pisum sativum growing in Poland

Author

Mazur, Andrzej, De Meyer, Sofie E, Tian, Rui, Wielbo, Jerzy, Zebracki, Kamil, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia N, Pati, Amrita, Woyke, Tanja, Kyrpides, Nikos C, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Alphaproteobacteria, GEBA-RNB

Abstract

Rhizobium leguminosarum bv. viciae GB30 is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of Pisum sativum. GB30 was isolated in Poland from a nodule recovered from the roots of Pisum sativum growing at Janow. GB30 is also an effective microsymbiont of the annual forage legumes vetch and pea. Here we describe the features of R. leguminosarum bv. viciae strain GB30, together with sequence and annotation. The 7,468,464 bp high-quality permanent draft genome is arranged in 78 scaffolds of 78 contigs containing 7,227 protein-coding genes and 75 RNA-only encoding genes, and is part of the GEBA-RNB project proposal.

Published

2015

16. High-quality permanent draft genome sequence of the Parapiptadenia rigida-nodulating Burkholderia sp. strain UYPR1.413

Author

De Meyer, Sofie E, Fabiano, Elena, Tian, Rui, Van Berkum, Peter, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Howieson, John, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Betaproteobacteria, GEBA-RNB

Abstract

Burkholderia sp. strain UYPR1.413 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from a root nodule of Parapiptadenia rigida collected at the Angico plantation, Mandiyu, Uruguay, in December 2006. A survey of symbionts of P. rigida in Uruguay demonstrated that this species is nodulated predominantly by Burkholderia microsymbionts. Moreover, Burkholderia sp. strain UYPR1.413 is a highly efficient nitrogen fixing symbiont with this host. Currently, the only other sequenced isolate to fix with this host is Cupriavidus sp. UYPR2.512. Therefore, Burkholderia sp. strain UYPR1.413 was selected for sequencing on the basis of its environmental and agricultural relevance to issues in global carbon cycling, alternative energy production, and biogeochemical importance, and is part of the GEBA-RNB project. Here we describe the features of Burkholderia sp. strain UYPR1.413, together with sequence and annotation. The 10,373,764 bp high-quality permanent draft genome is arranged in 336 scaffolds of 342 contigs, contains 9759 protein-coding genes and 77 RNA-only encoding genes.

Published

2015

17. High-quality permanent draft genome sequence of Bradyrhizobium sp. Th.b2, a microsymbiont of Amphicarpaea bracteata collected in Johnson City, New York

Author

Tian, Rui, Parker, Matthew, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Baeshen, Mohammed N, Baeshen, Nabih A, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria, GEBA-RNB

Abstract

Bradyrhizobium sp. Th.b2 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen-fixing root nodule of Amphicarpaea bracteata collected in Johnson City, New York. Here we describe the features of Bradyrhizobium sp. Th.b2, together with high-quality permanent draft genome sequence information and annotation. The 10,118,060 high-quality draft genome is arranged in 266 scaffolds of 274 contigs, contains 9,809 protein-coding genes and 108 RNA-only encoding genes. This rhizobial genome was sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2015

18. High-quality permanent draft genome sequence of the Lebeckia - nodulating Burkholderia dilworthii strain WSM3556T

Author

De Meyer, Sofie E, Tian, Rui, Seshadri, Rekha, Ivanova, Natalia, Pati, Amrita, Markowitz, Victor, Woyke, Tanja, Yates, Ron, Howieson, John, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Betaproteobacteria, South Africa, Lebeckia, GEBA-RNB

Abstract

Burkholderia dilworthii strain WSM3556(T) is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective N2-fixing root nodule of Lebeckia ambigua collected near Grotto Bay Nature Reserve, in the Western Cape of South Africa, in October 2004. This plant persists in infertile and deep sandy soils with acidic pH, and is therefore an ideal candidate for a perennial based agriculture system in Western Australia. WSM3556(T) thus represents a potential inoculant quality strain for L. ambigua for which we describe the general features, together with genome sequence and annotation. The 7,679,067 bp high-quality permanent draft genome is arranged in 140 scaffolds of 141 contigs, contains 7,059 protein-coding genes and 64 RNA-only encoding genes, and is part of the GEBA-RNB project proposal.

Published

2015

19. High-Quality draft genome sequence of the Lotus spp. microsymbiont Mesorhizobium loti strain CJ3Sym

Author

Reeve, Wayne, Sullivan, John, Ronson, Clive, Tian, Rui, Munk, Christine, Han, Cliff, Reddy, TBK, Seshadri, Rekha, Woyke, Tanja, Pati, Amrita, Markowitz, Victor, Ivanova, Natalia, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria, GEBA-RNB

Abstract

Mesorhizobium loti strain CJ3Sym was isolated in 1998 following transfer of the integrative and conjugative element ICEMlSym(R7A), also known as the R7A symbiosis island, in a laboratory mating from the donor M. loti strain R7A to a nonsymbiotic recipient Mesorhizobium strain CJ3. Strain CJ3 was originally isolated from a field site in the Rocklands range in New Zealand in 1994. CJ3Sym is an aerobic, Gram-negative, non-spore-forming rod. This report reveals the genome of M. loti strain CJ3Sym currently comprises 70 scaffolds totaling 7,563,725 bp. The high-quality draft genome is arranged in 70 scaffolds of 71 contigs, contains 7,331 protein-coding genes and 70 RNA-only encoding genes, and is part of the GEBA-RNB project proposal.

Published

2015

20. High-quality permanent draft genome sequence of Bradyrhizobium sp. Ai1a-2; a microsymbiont of Andira inermis discovered in Costa Rica

Author

Tian, Rui, Parker, Matthew, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Baeshen, Mohammed, Baeshen, Nabih, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria, GEBA-RNB

Abstract

Bradyrhizobium sp. Ai1a-2 is is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen fixing root nodule of Andira inermis collected from Tres Piedras in Costa Rica. In this report we describe, for the first time, the genome sequence information and annotation of this legume microsymbiont. The 9,029,266 bp genome has a GC content of 62.56% with 247 contigs arranged into 246 scaffolds. The assembled genome contains 8,482 protein-coding genes and 102 RNA-only encoding genes. This rhizobial genome was sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project proposal.

Published

2015

21. High-quality permanent draft genome sequence of Rhizobium sullae strain WSM1592; a Hedysarum coronarium microsymbiont from Sassari, Italy

Author

Yates, Ron, Howieson, John, De Meyer, Sofie E, Tian, Rui, Seshadri, Rekha, Pati, Amrita, Woyke, Tanja, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, Loi, Angelo, Nutt, Brad, Garau, Giovanni, Sulas, Leonardo, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Alphaproteobacteria, GEBA-RNB

Abstract

Rhizobium sullae strain WSM1592 is an aerobic, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen (N2) fixing root nodule formed on the short-lived perennial legume Hedysarum coronarium (also known as Sulla coronaria or Sulla). WSM1592 was isolated from a nodule recovered from H. coronarium roots located in Ottava, bordering Sassari, Sardinia in 1995. WSM1592 is highly effective at fixing nitrogen with H. coronarium, and is currently the commercial Sulla inoculant strain in Australia. Here we describe the features of R. sullae strain WSM1592, together with genome sequence information and its annotation. The 7,530,820 bp high-quality permanent draft genome is arranged into 118 scaffolds of 118 contigs containing 7.453 protein-coding genes and 73 RNA-only encoding genes. This rhizobial genome is sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2015

22. High-quality permanent draft genome sequence of Ensifer meliloti strain 4H41, an effective salt- and drought-tolerant microsymbiont of Phaseolus vulgaris

Author

Mhamdi, Ridha, Ardley, Julie, Tian, Rui, Seshadri, Rekha, Reddy, TBK, Pati, Amrita, Woyke, Tanja, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Root-nodule bacteria, Nitrogen fixation, Alphaproteobacteria, Ensifer, Phaseolus vulgaris

Abstract

Ensifer meliloti 4H41 is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of common bean (Phaseolus vulgaris). Strain 4H41 was isolated in 2002 from root nodules of P. vulgaris grown in South Tunisia from the oasis of Rjim-Maatoug. Strain 4H41 is salt- and drought-tolerant and highly effective at fixing nitrogen with P. vulgaris. Here we describe the features of E. meliloti 4H41, together with genome sequence information and its annotation. The 6,795,637 bp high-quality permanent draft genome is arranged into 47 scaffolds of 47 contigs containing 6,350 protein-coding genes and 72 RNA-only encoding genes, and is one of the rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project proposal.

Published

2015

23. High-quality permanent draft genome sequence of the Mimosa asperata - nodulating Cupriavidus sp. strain AMP6

Author

De Meyer, Sofie E, Parker, Matthew, Van Berkum, Peter, Tian, Rui, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Kyrpides, Nikos, Howieson, John, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Betaproteobacteria, Texas, Mimosa asperata, GEBA-RNB

Abstract

Cupriavidus sp. strain AMP6 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from a root nodule of Mimosa asperata collected in Santa Ana National Wildlife Refuge, Texas, in 2005. Mimosa asperata is the only legume described so far to exclusively associates with Cupriavidus symbionts. Moreover, strain AMP6 represents an early-diverging lineage within the symbiotic Cupriavidus group and has the capacity to develop an effective nitrogen-fixing symbiosis with three other species of Mimosa. Therefore, the genome of Cupriavidus sp. strain AMP6 enables comparative analyses of symbiotic trait evolution in this genus and here we describe the general features, together with sequence and annotation. The 7,579,563 bp high-quality permanent draft genome is arranged in 260 scaffolds of 262 contigs, contains 7,033 protein-coding genes and 97 RNA-only encoding genes, and is part of the GEBA-RNB project proposal.

Published

2015

24. High-quality permanent draft genome sequence of Bradyrhizobium sp. strain WSM1743 - an effective microsymbiont of an Indigofera sp. growing in Australia

Author

Eshraghi, Leila, De Meyer, Sofie E, Tian, Rui, Seshadri, Rekha, Ivanova, Natalia, Pati, Amrita, Markowitz, Victor, Woyke, Tanja, Kyrpides, Nikos C, Tiwari, Ravi, Yates, Ron, Howieson, John, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Alphaproteobacteria, GEBA RNB, GEBA-RNB

Abstract

Bradyrhizobium sp. strain WSM1743 is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of an Indigofera sp. WSM1743 was isolated from a nodule recovered from the roots of an Indigofera sp. growing 20 km north of Carnarvon in Australia. It is slow growing, tolerates up to 1 % NaCl and is capable of growth at 37 °C. Here we describe the features of Bradyrhizobium sp. strain WSM1743, together with genome sequence information and its annotation. The 8,341,956 bp high-quality permanent draft genome is arranged into 163 scaffolds and 167 contigs, contains 7908 protein-coding genes and 75 RNA-only encoding genes and was sequenced as part of the Root Nodule Bacteria chapter of the Genomic Encyclopedia of Bacteria and Archaea project.

Published

2015

25. High-quality permanent draft genome sequence of the Lebeckia ambigua-nodulating Burkholderia sp. strain WSM4176

Author

De Meyer, Sofie E, Tian, Rui, Seshadri, Rekha, Reddy, TBK, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, Kyrpides, Nikos, Yates, Ron, Howieson, John, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Betaproteobacteria, GEBA-RNB

Abstract

Burkholderia sp. strain WSM4176 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective N2-fixing root nodule of Lebeckia ambigua collected in Nieuwoudtville, Western Cape of South Africa, in October 2007. This plant persists in infertile, acidic and deep sandy soils, and is therefore an ideal candidate for a perennial based agriculture system in Western Australia. Here we describe the features of Burkholderia sp. strain WSM4176, which represents a potential inoculant quality strain for L. ambigua, together with sequence and annotation. The 9,065,247 bp high-quality-draft genome is arranged in 13 scaffolds of 65 contigs, contains 8369 protein-coding genes and 128 RNA-only encoding genes, and is part of the GEBA-RNB project proposal (Project ID 882).

Published

2015

26. High-quality permanent draft genome sequence of Ensifer medicae strain WSM244, a microsymbiont isolated from Medicago polymorpha growing in alkaline soil

Author

Ardley, Julie, Tian, Rui, O’Hara, Graham, Seshadri, Rekha, Reddy, TBK, Pati, Amrita, Woyke, Tanja, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, Howieson, John, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria, Ensifer, GEBA-RNB

Abstract

Ensifer medicae WSM244 is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of Medicago species. WSM244 was isolated in 1979 from a nodule recovered from the roots of the annual Medicago polymorpha L. growing in alkaline soil (pH 8.0) in Tel Afer, Iraq. WSM244 is the only acid-sensitive E. medicae strain that has been sequenced to date. It is effective at fixing nitrogen with M. polymorpha L., as well as with more alkaline-adapted Medicago spp. such as M. littoralis Loisel., M. scutellata (L.) Mill., M. tornata (L.) Mill. and M. truncatula Gaertn. This strain is also effective with the perennial M. sativa L. Here we describe the features of E. medicae WSM244, together with genome sequence information and its annotation. The 6,650,282 bp high-quality permanent draft genome is arranged into 91 scaffolds of 91 contigs containing 6,427 protein-coding genes and 68 RNA-only encoding genes, and is one of the rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project proposal.

Published

2015

27. Genome sequence of Bradyrhizobium sp. WSM1253; a microsymbiont of Ornithopus compressus from the Greek Island of Sifnos

Author

Tiwari, Ravi, Howieson, John, Yates, Ron, Tian, Rui, Held, Britanny, Tapia, Roxanne, Han, Cliff, Seshadri, Rekha, Reddy, TBK, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, root-nodule bacteria, nitrogen fixation, rhizobia, Ornithopus

Abstract

Bradyrhizobium sp. WSM1253 is a novel N2-fixing bacterium isolated from a root nodule of the herbaceous annual legume Ornithopus compressus that was growing on the Greek Island of Sifnos. WSM1253 emerged as a strain of interest in an Australian program that was selecting inoculant quality bradyrhizobial strains for inoculation of Mediterranean species of lupins (Lupinus angustifolius, L. princei, L. atlanticus, L. pilosus). In this report we describe, for the first time, the genome sequence information and annotation of this legume microsymbiont. The 8,719,808 bp genome has a G + C content of 63.09 % with 71 contigs arranged into two scaffolds. The assembled genome contains 8,432 protein-coding genes, 66 RNA genes and a single rRNA operon. This improved-high-quality draft rhizobial genome is one of 20 sequenced through a DOE Joint Genome Institute 2010 Community Sequencing Project.

Published

2015

28. Genome sequence of the Listia angolensis microsymbiont Microvirga lotononidis strain WSM3557T

Author

Reeve, Wayne, Ardley, Julie, Tian, Rui, De Meyer, Sofie, Terpolilli, Jason, Melino, Vanessa, Tiwari, Ravi, Yates, Ronald, O’Hara, Graham, Howieson, John, Ninawi, Mohamed, Zhang, Xiaojing, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Szeto, Ernest, Ivanova, Natalia, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, root-nodule bacteria, nitrogen fixation, symbiotic specificity, Alphaproteobacteria

Abstract

Microvirga lotononidis is a recently described species of root-nodule bacteria that is an effective nitrogen- (N2) fixing microsymbiont of the symbiotically specific African legume Listia angolensis (Welw. ex Bak.) B.-E. van Wyk & Boatwr. M. lotononidis possesses several properties that are unusual in root-nodule bacteria, including pigmentation and the ability to grow at temperatures of up to 45°C. Strain WSM3557(T) is an aerobic, motile, Gram-negative, non-spore-forming rod isolated from a L. angolensis root nodule collected in Chipata, Zambia in 1963. This is the first report of a complete genome sequence for the genus Microvirga. Here we describe the features of Microvirga lotononidis strain WSM3557(T), together with genome sequence information and annotation. The 7,082,538 high-quality-draft genome is arranged in 18 scaffolds of 104 contigs, contains 6,956 protein-coding genes and 84 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2014

29. Genome sequence of Ensifer arboris strain LMG 14919T; a microsymbiont of the legume Prosopis chilensis growing in Kosti, Sudan

Author

Reeve, Wayne, Tian, Rui, Bräu, Lambert, Goodwin, Lynne, Munk, Christine, Detter, Chris, Tapia, Roxanne, Han, Cliff, Liolios, Konstantinos, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Mavrommatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Willems, Anne

Subjects

Microbiology, Biological Sciences, Genetics, Biotechnology, Human Genome, root-nodule bacteria, nitrogen fixation, rhizobia, Alphaproteobacteria

Abstract

Ensifer arboris LMG 14919(T) is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of several species of legume trees. LMG 14919(T) was isolated in 1987 from a nodule recovered from the roots of the tree Prosopis chilensis growing in Kosti, Sudan. LMG 14919(T) is highly effective at fixing nitrogen with P. chilensis (Chilean mesquite) and Acacia senegal (gum Arabic tree or gum acacia). LMG 14919(T) does not nodulate the tree Leucena leucocephala, nor the herbaceous species Macroptilium atropurpureum, Trifolium pratense, Medicago sativa, Lotus corniculatus and Galega orientalis. Here we describe the features of E. arboris LMG 14919(T), together with genome sequence information and its annotation. The 6,850,303 bp high-quality-draft genome is arranged into 7 scaffolds of 12 contigs containing 6,461 protein-coding genes and 84 RNA-only encoding genes, and is one of 100 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

30. Complete genome sequence of Mesorhizobium ciceri bv. biserrulae type strain (WSM1271T)

Author

Nandasena, Kemanthi, Yates, Ron, Tiwari, Ravi, O’Hara, Graham, Howieson, John, Ninawi, Mohamed, Chertkov, Olga, Detter, Chris, Tapia, Roxanne, Han, Shunseng, Woyke, Tanja, Pitluck, Sam, Nolan, Matt, Land, Miriam, Liolios, Konstantinos, Pati, Amrita, Copeland, Alex, Kyrpides, Nikos, Ivanova, Natalia, Goodwin, Lynne, Meenakshi, Uma, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, root-nodule bacteria, nitrogen fixation, evolution, lateral gene transfer, integrative and conjugative elements, symbiosis, Alphaproteobacteria

Abstract

Mesorhizobium ciceri bv. biserrulae strain WSM1271(T) was isolated from root nodules of the pasture legume Biserrula pelecinus growing in the Mediterranean basin. Previous studies have shown this aerobic, motile, Gram negative, non-spore-forming rod preferably nodulates B. pelecinus - a legume with many beneficial agronomic attributes for sustainable agriculture in Australia. We describe the genome of Mesorhizobium ciceri bv. biserrulae strain WSM1271(T) consisting of a 6,264,489 bp chromosome and a 425,539 bp plasmid that together encode 6,470 protein-coding genes and 61 RNA-only encoding genes.

Published

2014

31. Genome sequence of Rhizobium leguminosarum bv trifolii strain WSM1689, the microsymbiont of the one flowered clover Trifolium uniflorum

Author

Terpolilli, Jason, Rui, Tian, Yates, Ron, Howieson, John, Poole, Philip, Munk, Christine, Tapia, Roxanne, Han, Cliff, Markowitz, Victor, Tatiparthi, Reddy, Mavrommatis, Konstantinos, Ivanova, Natalia, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, root-nodule bacteria, nitrogen fixation, lupin-nodulating, rhizobia, Alphaproteobacteria

Abstract

Rhizobium leguminosarum bv. trifolii is a soil-inhabiting bacterium that has the capacity to be an effective N2-fixing microsymbiont of Trifolium (clover) species. R. leguminosarum bv. trifolii strain WSM1689 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from a root nodule of Trifolium uniflorum collected on the edge of a valley 6 km from Eggares on the Greek Island of Naxos. Although WSM1689 is capable of highly effective N2-fixation with T. uniflorum, it is either unable to nodulate or unable to fix N2 with a wide range of both perennial and annual clovers originating from Europe, North America and Africa. WSM1689 therefore possesses a very narrow host range for effective N2 fixation and can thus play a valuable role in determining the geographic and phenological barriers to symbiotic performance in the genus Trifolium. Here we describe the features of R. leguminosarum bv. trifolii strain WSM1689, together with the complete genome sequence and its annotation. The 6,903,379 bp genome contains 6,709 protein-coding genes and 89 RNA-only encoding genes. This multipartite genome contains six distinct replicons; a chromosome of size 4,854,518 bp and five plasmids of size 667,306, 518,052, 341,391, 262,704 and 259,408 bp. This rhizobial genome is one of 20 sequenced as part of a DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2014

32. Genome sequence of Ensifer medicae strain WSM1115; an acid-tolerant Medicago-nodulating microsymbiont from Samothraki, Greece

Author

Reeve, Wayne, Ballard, Ross, Howieson, John, Drew, Elizabeth, Tian, Rui, Bräu, Lambert, Munk, Christine, Davenport, Karen, Chain, Patrick, Goodwin, Lynne, Pagani, Ioanna, Huntemann, Marcel, Mavrommatis, Konstantinos, Pati, Amrita, Markowitz, Victor, Ivanova, Natalia, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, root-nodule bacteria, nitrogen fixation, rhizobia, Alphaproteobacteria

Abstract

Ensifer medicae strain WSM1115 forms effective nitrogen fixing symbioses with a range of annual Medicago species and is used in commercial inoculants in Australia. WSM1115 is an aerobic, motile, Gram-negative, non-spore-forming rod. It was isolated from a nodule recovered from the root of burr medic (Medicago polymorpha) collected on the Greek Island of Samothraki. WSM1115 has a broad host range for nodulation and N2 fixation capacity within the genus Medicago, although this does not extend to all medic species. WSM1115 is considered saprophytically competent in moderately acid soils (pH(CaCl2) 5.0), but it has failed to persist at field sites where soil salinity exceeded 10 ECe (dS/m). Here we describe the features of E. medicae strain WSM1115, together with genome sequence information and its annotation. The 6,861,065 bp high-quality-draft genome is arranged into 7 scaffolds of 28 contigs, contains 6,789 protein-coding genes and 83 RNA-only encoding genes, and is one of 100 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

33. Genome sequence of Burkholderia mimosarum strain LMG 23256T, a Mimosa pigra microsymbiont from Anso, Taiwan

Author

Willems, Anne, Tian, Rui, Bräu, Lambert, Goodwin, Lynne, Han, James, Liolios, Konstantinos, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Mavrommatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Biotechnology, Human Genome, root-nodule bacteria, nitrogen fixation, rhizobia, Betaproteobacteria

Abstract

Burkholderia mimosarum strain LMG 23256(T) is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of Mimosa pigra (giant sensitive plant). LMG 23256(T) was isolated from a nodule recovered from the roots of the M. pigra growing in Anso, Taiwan. LMG 23256(T) is highly effective at fixing nitrogen with M. pigra. Here we describe the features of B. mimosarum strain LMG 23256(T), together with genome sequence information and its annotation. The 8,410,967 bp high-quality-draft genome is arranged into 268 scaffolds of 270 contigs containing 7,800 protein-coding genes and 85 RNA-only encoding genes, and is one of 100 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

34. Genome sequence of the acid-tolerant Burkholderia sp. strain WSM2232 from Karijini National Park, Australia

Author

Walker, Robert, Watkin, Elizabeth, Tian, Rui, Bräu, Lambert, O’Hara, Graham, Goodwin, Lynne, Han, James, Reddy, Tatiparthi, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, root-nodule bacteria, nitrogen fixation, rhizobia, Betaproteobacteria

Abstract

Burkholderia sp. strain WSM2232 is an aerobic, motile, Gram-negative, non-spore-forming acid-tolerant rod that was trapped in 2001 from acidic soil collected from Karijini National Park (Australia) using Gastrolobium capitatum as a host. WSM2232 was effective in nitrogen fixation with G. capitatum but subsequently lost symbiotic competence during long-term storage. Here we describe the features of Burkholderia sp. strain WSM2232, together with genome sequence information and its annotation. The 7,208,311 bp standard-draft genome is arranged into 72 scaffolds of 72 contigs containing 6,322 protein-coding genes and 61 RNA-only encoding genes. The loss of symbiotic capability can now be attributed to the loss of nodulation and nitrogen fixation genes from the genome. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

35. Genome sequence of the Medicago-nodulating Ensifer meliloti commercial inoculant strain RRI128

Author

Reeve, Wayne, Ballard, Ross, Drew, Elizabeth, Tian, Rui, Bräu, Lambert, Goodwin, Lynne, Huntemann, Marcel, Han, James, Tatiparthi, Reddy, Chen, Amy, Mavrommatis, Konstantinos, Markowitz, Victor, Palaniappan, Krishna, Ivanova, Natalia, Pati, Amrita, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, root-nodule bacteria, nitrogen fixation, rhizobia, Alphaproteobacteria

Abstract

Ensifer meliloti strain RRI128 is an aerobic, motile, Gram-negative, non-spore-forming rod. RRI128 was isolated from a nodule recovered from the roots of barrel medic (Medicago truncatula) grown in the greenhouse and inoculated with soil collected from Victoria, Australia. The strain is used in commercial inoculants in Australia. RRI128 nodulates and forms an effective symbiosis with a diverse range of lucerne cultivars (Medicago sativa) and several species of annual medic (M. truncatula, Medicago littoralis and Medicago tornata), but forms an ineffective symbiosis with Medicago polymorpha. Here we describe the features of E. meliloti strain RRI128, together with genome sequence information and annotation. The 6,900,273 bp draft genome is arranged into 156 scaffolds of 157 contigs, contains 6,683 protein-coding genes and 87 RNA-only encoding genes, and is one of 100 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

36. Genome sequence of Microvirga lupini strain LUT6T, a novel Lupinus alphaproteobacterial microsymbiont from Texas

Author

Reeve, Wayne, Parker, Matthew, Tian, Rui, Goodwin, Lynne, Teshima, Hazuki, Tapia, Roxanne, Han, Cliff, Han, James, Liolios, Konstantinos, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, root-nodule bacteria, nitrogen fixation, rhizobia, Alphaproteobacteria

Abstract

Microvirga lupini LUT6(T) is an aerobic, non-motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of Lupinus texensis. LUT6(T) was isolated in 2006 from a nodule recovered from the roots of the annual L. texensis growing in Travis Co., Texas. LUT6(T) forms a highly specific nitrogen-fixing symbiosis with endemic L. texensis and no other Lupinus species can form an effective nitrogen-fixing symbiosis with this isolate. Here we describe the features of M. lupini LUT6(T), together with genome sequence information and its annotation. The 9,633,614 bp improved high quality draft genome is arranged into 160 scaffolds of 1,366 contigs containing 10,864 protein-coding genes and 87 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of a DOE Joint Genome Institute 2010 Community Sequencing Project.

Published

2014

37. Genome sequence of the Lotus spp. microsymbiont Mesorhizobium loti strain NZP2037

Author

Kelly, Simon, Sullivan, John, Ronson, Clive, Tian, Rui, Bräu, Lambert, Davenport, Karen, Daligault, Hajnalka, Erkkila, Tracy, Goodwin, Lynne, Gu, Wei, Munk, Christine, Teshima, Hazuki, Xu, Yan, Chain, Patrick, Woyke, Tanja, Liolios, Konstantinos, Pati, Amrita, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria

Abstract

Mesorhizobium loti strain NZP2037 was isolated in 1961 in Palmerston North, New Zealand from a Lotus divaricatus root nodule. Compared to most other M. loti strains, it has a broad host range and is one of very few M. loti strains able to form effective nodules on the agriculturally important legume Lotus pedunculatus. NZP2037 is an aerobic, Gram negative, non-spore-forming rod. This report reveals that the genome of M. loti strain NZP2037 does not harbor any plasmids and contains a single scaffold of size 7,462,792 bp which encodes 7,318 protein-coding genes and 70 RNA-only encoding genes. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

38. Genome sequence of the Lotus corniculatus microsymbiont Mesorhizobium loti strain R88B

Author

Reeve, Wayne, Sullivan, John, Ronson, Clive, Tian, Rui, Bräu, Lambert, Davenport, Karen, Goodwin, Lynne, Chain, Patrick, Woyke, Tanja, Lobos, Elizabeth, Huntemann, Marcel, Pati, Amrita, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria

Abstract

Mesorhizobium loti strain R88B was isolated in 1993 in the Rocklands range in Otago, New Zealand from a Lotus corniculatus root nodule. R88B is an aerobic, Gram-negative, non-spore-forming rod. This report reveals the genome of M. loti strain R88B contains a single scaffold of size 7,195,110 bp which encodes 6,950 protein-coding genes and 66 RNA-only encoding genes. This genome does not harbor any plasmids but contains the integrative and conjugative element ICEMlSym(R7A), also known as the R7A symbiosis island, acquired by horizontal gene transfer in the field environment from M. loti strain R7A. It also contains a mobilizable genetic element ICEMladh(R88B), that encodes a likely adhesin gene which has integrated downstream of ICEMlSym(R7A), and three acquired loci that together allow the utilization of the siderophore ferrichrome. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

39. Genome sequence of the dark pink pigmented Listia bainesii microsymbiont Methylobacterium sp. WSM2598

Author

Ardley, Julie, Tian, Rui, Howieson, John, Yates, Ron, Bräu, Lambert, Han, James, Lobos, Elizabeth, Huntemann, Marcel, Chen, Amy, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Root-nodule bacteria, Nitrogen fixation, Symbiotic specificity, Alphaproteobacteria

Abstract

Strains of a pink-pigmented Methylobacterium sp. are effective nitrogen- (N2) fixing microsymbionts of species of the African crotalarioid genus Listia. Strain WSM2598 is an aerobic, motile, Gram-negative, non-spore-forming rod isolated in 2002 from a Listia bainesii root nodule collected at Estcourt Research Station in South Africa. Here we describe the features of Methylobacterium sp. WSM2598, together with information and annotation of a high-quality draft genome sequence. The 7,669,765 bp draft genome is arranged in 5 scaffolds of 83 contigs, contains 7,236 protein-coding genes and 18 RNA-only encoding genes. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 G enomic E ncyclopedia for B acteria and A rchaea- R oot N odule B acteria (GEBA-RNB) project.

Published

2014

40. Genome sequence of Ensifer medicae Di28; an effective N2-fixing microsymbiont of Medicago murex and M. polymorpha

Author

Garau, Giovanni, Terpolilli, Jason, Hill, Yvette, Tian, Rui, Howieson, John, Bräu, Lambert, Goodwin, Lynne, Han, James, Reddy, TBK, Huntemann, Marcel, Pati, Amrita, Woyke, Tanja, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Biotechnology, Human Genome, Root-nodule bacteria, Nitrogen fixation, Rhizobia, Alphaproteobacteria

Abstract

Ensifer medicae Di28 is an aerobic, motile, Gram-negative, non-spore-forming rod that can exist as a soil saprophyte or as a legume microsymbiont of Medicago spp. Di28 was isolated in 1998 from a nodule recovered from the roots of M. polymorpha growing in the south east of Sardinia (Italy). Di28 is an effective microsymbiont of the annual forage legumes M. polymorpha and M. murex and is capable of establishing a partially effective symbiotic association with the perennial M. sativa. Here we describe the features of E. medicae Di28, together with genome sequence information and its annotation. The 6,553,624 bp standard draft genome is arranged into 104 scaffolds of 104 contigs containing 6,394 protein-coding genes and 75 RNA-only encoding genes. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

41. Genome sequence of the Lotus spp. microsymbiont Mesorhizobium loti strain R7A

Author

Kelly, Simon, Sullivan, John, Ronson, Clive, Tian, Rui, Bräu, Lambert, Munk, Christine, Goodwin, Lynne, Han, Cliff, Woyke, Tanja, Reddy, Tatiparthi, Huntemann, Marcel, Pati, Amrita, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Kyrpides, Nikos, and Reeve, Wayne

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, Root-nodule bacteria, Nitrogen fixation, Symbiosis, Alphaproteobacteria

Abstract

Mesorhizobium loti strain R7A was isolated in 1993 in Lammermoor, Otago, New Zealand from a Lotus corniculatus root nodule and is a reisolate of the inoculant strain ICMP3153 (NZP2238) used at the site. R7A is an aerobic, Gram-negative, non-spore-forming rod. The symbiotic genes in the strain are carried on a 502-kb integrative and conjugative element known as the symbiosis island or ICEMlSym(R7A). M. loti is the microsymbiont of the model legume Lotus japonicus and strain R7A has been used extensively in studies of the plant-microbe interaction. This report reveals that the genome of M. loti strain R7A does not harbor any plasmids and contains a single scaffold of size 6,529,530 bp which encodes 6,323 protein-coding genes and 75 RNA-only encoding genes. This rhizobial genome is one of 100 sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2014

42. The haplotype-resolved T2T carnation (Dianthus caryophyllus) genome reveal the correlation between genome architecture and gene expression

Author

Lan, Lan, primary, Leng, Luhong, additional, Liu, Weichao, additional, Ren, Yonglin, additional, Reeve, Wayne, additional, Fu, Xiaopeng, additional, Wu, Zhiqiang, additional, and Zhang, Xiaoni, additional

Published

2023

43. Genome sequence of the lupin-nodulating Bradyrhizobium sp. strain WSM1417.

Author

Reeve, Wayne, Terpolilli, Jason, Melino, Vanessa, Ardley, Julie, Tian, Rui, De Meyer, Sofie, Tiwari, Ravi, Yates, Ronald, OHara, Graham, Howieson, John, Ninawi, Mohamed, Teshima, Hazuki, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavrommatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Ovchinnikova, Galina, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Peters, Lin, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Bradyrhizobium sp. strain WSM1417 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen (N2) fixing root nodule of Lupinus sp. collected in Papudo, Chile, in 1995. However, this microsymbiont is a poorly effective N2 fixer with the legume host Lupinus angustifolius L.; a lupin species of considerable economic importance in both Chile and Australia. The symbiosis formed with L. angustifolius produces less than half of the dry matter achieved by the symbioses with commercial inoculant strains such as Bradyrhizobium sp. strain WSM471. Therefore, WSM1417 is an important candidate strain with which to investigate the genetics of effective N2 fixation in the lupin-bradyrhizobia symbioses. Here we describe the features of Bradyrhizobium sp. strain WSM1417, together with genome sequence information and annotation. The 8,048,963 bp high-quality-draft genome is arranged in a single scaffold of 2 contigs, contains 7,695 protein-coding genes and 77 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

44. Genome sequence of the Ornithopus/Lupinus-nodulating Bradyrhizobium sp. strain WSM471.

Author

Reeve, Wayne, De Meyer, Sofie, Terpolilli, Jason, Melino, Vanessa, Ardley, Julie, Tian, Rui, Tiwari, Ravi, Howieson, John, Yates, Ronald, OHara, Graham, Ninawi, Mohamed, Lu, Megan, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Bradyrhizobium sp. strain WSM471 is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an effective nitrogen- (N2) fixing root nodule formed on the annual legume Ornithopus pinnatus (Miller) Druce growing at Oyster Harbour, Albany district, Western Australia in 1982. This strain is in commercial production as an inoculant for Lupinus and Ornithopus. Here we describe the features of Bradyrhizobium sp. strain WSM471, together with genome sequence information and annotation. The 7,784,016 bp high-quality-draft genome is arranged in 1 scaffold of 2 contigs, contains 7,372 protein-coding genes and 58 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

45. Genome sequence of the clover-nodulating Rhizobium leguminosarum bv. trifolii strain TA1.

Author

Reeve, Wayne, Tian, Rui, De Meyer, Sofie, Melino, Vanessa, Terpolilli, Jason, Ardley, Julie, Tiwari, Ravi, Howieson, John, Yates, Ronald, OHara, Graham, Ninawi, Mohamed, Teshima, Hazuki, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Ovchinnikova, Galina, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Pitluck, Sam, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Rhizobium leguminosarum bv. trifolii strain TA1 is an aerobic, motile, Gram-negative, non-spore-forming rod that is an effective nitrogen fixing microsymbiont on the perennial clovers originating from Europe and the Mediterranean basin. TA1 however is ineffective with many annual and perennial clovers originating from Africa and America. Here we describe the features of R. leguminosarum bv. trifolii strain TA1, together with genome sequence information and annotation. The 8,618,824 bp high-quality-draft genome is arranged in a 6 scaffold of 32 contigs, contains 8,493 protein-coding genes and 83 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

46. Genome sequence of the South American clover-nodulating Rhizobium leguminosarum bv. trifolii strain WSM597.

Author

Reeve, Wayne, Terpolilli, Jason, Melino, Vanessa, Ardley, Julie, Tian, Rui, De Meyer, Sofie, Tiwari, Ravi, Yates, Ronald, OHara, Graham, Howieson, John, Ninawi, Mohamed, Held, Brittany, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Ivanova, Natalia, Ovchinnikova, Galina, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Rhizobium leguminosarum bv. trifolii strain WSM597 is an aerobic, motile, Gram-negative, non-spore-forming rod isolated from a root nodule of the annual clover Trifolium pallidum L. growing at Glencoe Research Station near Tacuarembó, Uruguay. This strain is generally ineffective for nitrogen (N2) fixation with clovers of Mediterranean, North American and African origin, but is effective on the South American perennial clover T. polymorphum Poir. Here we describe the features of R. leguminosarum bv. trifolii strain WSM597, together with genome sequence information and annotation. The 7,634,384 bp high-quality-draft genome is arranged in 2 scaffolds of 53 contigs, contains 7,394 protein-coding genes and 87 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

47. Genome sequence of the Trifolium rueppellianum -nodulating Rhizobium leguminosarum bv. trifolii strain WSM2012.

Author

Reeve, Wayne, Melino, Vanessa, Ardley, Julie, Tian, Rui, De Meyer, Sofie, Terpolilli, Jason, Tiwari, Ravi, Yates, Ronald, OHara, Graham, Howieson, John, Ninawi, Mohamed, Held, Brittany, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Szeto, Ernest, Ivanova, Natalia, Mikhailova, Natalia, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Rhizobium leguminosarum bv. trifolii WSM2012 (syn. MAR1468) is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated from an ineffective root nodule recovered from the roots of the annual clover Trifolium rueppellianum Fresen growing in Ethiopia. WSM2012 has a narrow, specialized host range for N2-fixation. Here we describe the features of R. leguminosarum bv. trifolii strain WSM2012, together with genome sequence information and annotation. The 7,180,565 bp high-quality-draft genome is arranged into 6 scaffolds of 68 contigs, contains 7,080 protein-coding genes and 86 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

48. Genome sequence of the Lebeckia ambigua-nodulating Burkholderia sprentiae strain WSM5005(T.).

Author

Reeve, Wayne, De Meyer, Sofie, Terpolilli, Jason, Melino, Vanessa, Ardley, Julie, Rui, Tian, Tiwari, Ravi, Howieson, John, Yates, Ron, OHara, Graham, Lu, Megan, Bruce, David, Detter, Chris, Tapia, Roxanne, Han, Cliff, Wei, Chia-Lin, Huntemann, Marcel, Han, James, Chen, I-Min, Mavromatis, Konstantinos, Markowitz, Victor, Szeto, Ernest, Ivanova, Natalia, Mikhailova, Natalia, Ovchinnikova, Galina, Pagani, Ioanna, Pati, Amrita, Goodwin, Lynne, Peters, Lin, Pitluck, Sam, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Alphaproteobacteria, nitrogen fixation, rhizobia, root-nodule bacteria

Abstract

Burkholderia sprentiae strain WSM5005(T) is an aerobic, motile, Gram-negative, non-spore-forming rod that was isolated in Australia from an effective N2-fixing root nodule of Lebeckia ambigua collected in Klawer, Western Cape of South Africa, in October 2007. Here we describe the features of Burkholderia sprentiae strain WSM5005(T), together with the genome sequence and its annotation. The 7,761,063 bp high-quality-draft genome is arranged in 8 scaffolds of 236 contigs, contains 7,147 protein-coding genes and 76 RNA-only encoding genes, and is one of 20 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Community Sequencing Program.

Published

2013

49. Complete genome sequence of Mesorhizobium australicum type strain (WSM2073(T)).

Author

Reeve, Wayne, Nandasena, Kemanthi, Yates, Ron, Tiwari, Ravi, OHara, Graham, Ninawi, Mohamed, Gu, Wei, Goodwin, Lynne, Detter, Chris, Tapia, Roxanne, Han, Cliff, Copeland, Alex, Liolios, Konstantinos, Chen, Amy, Markowitz, Victor, Pati, Amrita, Mavromatis, Konstantinos, Woyke, Tanja, Kyrpides, Nikos, Ivanova, Natalia, and Howieson, John

Subjects

Alphaproteobacteria, evolution, integrative and conjugative elements, lateral transfer of genes, nitrogen fixation, root-nodule bacteria, symbiosis

Abstract

Mesorhizobium australicum strain WSM2073(T) was isolated from root nodules on the pasture legume Biserrula pelecinus growing in Australia in 2000. This aerobic, motile, gram negative, non-spore-forming rod is poorly effective in N2 fixation on B. pelecinus and has gained the ability to nodulate B. pelecinus following in situ lateral transfer of a symbiosis island from the original inoculant strain for this legume, Mesorhizobium ciceri bv. biserrulae WSM1271. We describe that the genome size of M. australicum strain WSM2073(T) is 6,200,534 bp encoding 6,013 protein-coding genes and 67 RNA-only encoding genes. This genome does not contain any plasmids but has a 455.7 kb genomic island from Mesorhizobium ciceri bv. biserrulae WSM1271 that has been integrated into a phenylalanine-tRNA gene.

Published

2013

50. Genome sequence of the clover-nodulating Rhizobium leguminosarum bv. trifolii strain SRDI565

Author

Reeve, Wayne, Drew, Elizabeth, Ballard, Ross, Melino, Vanessa, Tian, Rui, De Meyer, Sofie, Brau, Lambert, Ninawi, Mohamed, Teshima, Hazuki, Goodwin, Lynne, Chain, Patrick, Liolios, Konstantinos, Pati, Amrita, Mavromatis, Konstantinos, Ivanova, Natalia, Markowitz, Victor, Woyke, Tanja, and Kyrpides, Nikos

Subjects

Microbiology, Biological Sciences, Genetics, Human Genome, Biotechnology, root-nodule bacteria, nitrogen fixation, rhizobia, Alphaproteobacteria

Abstract

Rhizobium leguminosarum bv. trifolii SRDI565 (syn. N8-J) is an aerobic, motile, Gram-negative, non-spore-forming rod. SRDI565 was isolated from a nodule recovered from the roots of the annual clover Trifolium subterraneum subsp. subterraneum grown in the greenhouse and inoculated with soil collected from New South Wales, Australia. SRDI565 has a broad host range for nodulation within the clover genus, however N2-fixation is sub-optimal with some Trifolium species and ineffective with others. Here we describe the features of R. leguminosarum bv. trifolii strain SRDI565, together with genome sequence information and annotation. The 6,905,599 bp high-quality-draft genome is arranged into 7 scaffolds of 7 contigs, contains 6,750 protein-coding genes and 86 RNA-only encoding genes, and is one of 100 rhizobial genomes sequenced as part of the DOE Joint Genome Institute 2010 Genomic Encyclopedia for Bacteria and Archaea-Root Nodule Bacteria (GEBA-RNB) project.

Published

2013