New lactate- and pyruvate-containing polysaccharide and rhamnomannan with xylose residues from the cell wall of Rathayibacter oskolensis VKM Ac-2121T.

The cell wall of endophytic strain Rathayibacter oskolensis VKM Ac-2121T (family Microbacteriaceae, class Actinomycetes) was found to contain neutral and acidic glycopolymers. The neutral polymer is a block-type rhamnomannan partially should be substitutied by xylose residues, [→2)-α-[ß-D-Xylp-(1 â†’ 3)]-D-Manp-(1 â†’ 3)-α-D-Rhap-(1→]∼30 [→2)-α-D-Manp-(1 â†’ 3)-α-D-Rhap-(1→]∼45. The acidic polymer has branched chain, bearing lactate and pyruvate residues, →4)-α-D-[S-Lac-(2-3)-α-L-Rhap-(1 â†’ 3)]-D-Manp-(1 â†’ 3)-α-D-[4,6-R-Pyr]-D-Galp-(1 â†’ 3)-ß-D-Glcp-(1 â†’. The structures of both glycopolymers were not described in the Gram-positive bacteria to date. The glycopolymers were studied by chemical and NMR spectroscopic methods. The results of this study provide new data on diversity of bacterial glycopolymers and may prove useful in the taxonomy of the genus Rathayibacter and for understanding the molecular mechanisms of interaction between plants and plant endophytes.

Rathayibacter tanaceti sp. nov., a Novel Actinobacterium from Tanacetum vulgare Infested by Foliar Nematode Aphelenchoides sp.

Two novel yellow-pigmented, rod-shaped and non-motile coryneform actinobacteria, strains VKM Ac-2596T and VKM Ac-2761, were isolated from a plant Tanacetum vulgare (Asteraceae) infested by foliar nematode Aphelenchoides sp. The strains exhibited the highest 16S rRNA gene sequence similarities to Rathayibacter agropyri CA4T (99.71%), Rathayibacter rathayi DSM 7485T (99.65%) and Rathayibacter iranicus VKM Ac-1602T (99.65%). The pairwise average nucleotide identity (ANI) and digital DNA-DNA hybridization (dDDH) values between VKM Ac-2596T and VKM Ac-2671 towards the type strains of Rathayibacter species did not exceed 85.24% and 29.40%, respectively, that are well below the thresholds for species delineation. The target strains had key chemotaxonomic properties typical of the genus Rathayibacter, namely, the DAB-based peptidoglycan, rhamnose and mannose as the predominant sugars and a rhamnomannan in the cell, the major menaquinone MK-10 and fatty acids of iso-anteiso type, with a large proportion of anteiso-15:0. The strains showed clear differences from the recognized Rathayibacter species in several phenotypic characteristics, including the difference in the composition of cell wall glycopolymers. Based on the results obtained in this study and the data published previously, we provide a description of a new species, Rathayibacter tanaceti sp. nov., with DL-642T (= VKM Ac-2596T = LMG 33114T) as the type strain.

A highly branched novel galactofuranan in the cell wall of Clavibacter tesselarius VKM Ac-1406T.

The structures of two cell wall glycopolymers were studied in the plant pathogenic bacterium Clavibacter tesselarius VKM Ac-1406T (family Microbacteriaceae, order Micrococcales, class Actinomycetes). The predominant polymer was a novel (1 â†’ 6)-linked ß-d-galactofuranan with a highly branched repeating unit, α-L-Rhap-(1 â†’ 3)-α-D-Galp-(1 â†’ 2)-[α-L-Rhap-(1 â†’ 3)]-α-D-Fucp-(1 →, at O-2 on every second galactofuranose residue. The second polymer present in small amounts was acidic with the repeating unit, →3)-α-D-Galp-(1 â†’ 3)-α-D-[4,6-S-Pyr]-Manp-(1 â†’ 3)-α-D-Manp-[2OAc]0.2-(1→, and was reported in all Clavibacter species investigated to date. The presented results expand our knowledges of structural diversity of phosphate-free cell wall glycopolymers and provide evidence in support of their taxonomic specificity for bacterial species and genera.

A novel cell wall galactofuranan in Clavibacter phaseoli VKM Ac-2641T.

A glycopolymer of novel structure was found in the cell wall of plant pathogen Clavibacter phaseoli VKM Ac-2641T (family Microbacteriaceae, class Actinomycetes). The glycopolymer was (1 â†’ 6)-linked ß-d-galactofuranan with side branched trisaccharide, α-D-Manp-(1 â†’ 2)-[α-D-Manp-(1 â†’ 3)]-α-D-Ribf-(1→ at O-2 on every second galactofuranose residue. The galactofuranan structure was established by chemical and NMR spectroscopic methods using one- and two-dimensional techniques 1H,1H COSY, TOCSY, ROESY and 1H,13C HSQC, HMBC. The results of this study provide new data on diversity of bacterial glycopolymers, may prove useful for bacterial taxonomy and contribute to the understanding of the host plant-microbiota interaction mechanisms.

First Report of Curtobacterium flaccumfaciens pv. flaccumfaciens Causing Bacterial Wilt and Blight on Sunflower in Russia.

In the summer of 2018, wilt and leaf spots were observed on sunflower (Helianthus annuus L.) plants in fields near Kursk (51.74°N, 36.02°E) in Russia. In the following years, incidence of this disease was 5 to 20% in the inspected fields. Marginal chlorosis on seedling leaves developed into wilt and necrosis about one week later (Fig. 1). Mature plants had leaves with blight and reduced height compared to symptomless plants. Pathogen isolation from seeds was done by the method of Tegli et al. (2002) with modifications. Bacteria from diseased plants were isolated by streaking inoculum from symptomatic tissues on nutrient dextrose agar (NDA) (Schaad et al. 1988). The plates were incubated at 30°C for 7 to 10 days. Isolates consistently formed slow-growing, yellow, circular, smooth colonies without soluble pigment. The isolated bacteria were aerobic, gram-positive, and rod-shaped. Eight strains, CF-20 to CF-26 from plants, and Curt1 and Curt3 from seeds, were identified by MALDI TOF MS analysis as Curtobacterium flaccumfaciens pv. flaccumfaciens or C. flaccumfaciens pv. poinsettiae. All strains had GENIII MicroPlate (BIOLOG) test results identical to C. flaccumfaciens pv. flaccumfaciens strain DSM20129T. Further analysis was done by specific PCR (Tegli et al. 2002) and 16S rDNA, gyrB, and atpD gene sequencing. For PCR amplification, DNA was extracted by the CitoSorb Kit (Syntol Co., Moscow). Primers 27F/1492R (16S rRNA) (Marchesi et al. 1998), 2F/6R (gyrB) (Richert et al. 2005), and aptD2F/aptD2R (Jacques et al. 2012) were used to amplify the target gene sequences. The PCR products were sequenced by Evrogen (Moscow). The 16S rRNA sequences (OL584192.1 to OL584199.1) were identical to that of C. flaccumfaciens pv. flaccumfaciens strain DSM20129T (AM410688.1; 1,477/1,477 bp). The phylogenetic tree of concatenated gyrB (560 bp) and atpD (716 bp) sequences (OL548915.1 to OL548922.1 and OL548923.1 to OL548930.1, respectively) clustered the strains from sunflower among C. flaccumfaciens pv. flaccumfaciens, C. flaccumfaciens pv. betae, and C. flaccumfaciens pv. oortii (Fig. 2) with high genetic similarity to other C. flaccumfaciens strains: 96.3 to 100% for atpD and 95 to 100% for gyrB. A pathogenicity test for each of the strains was performed by injecting 5 µl of a bacterial suspension (108 CFU/ml) grown for 72 h on NDA into the stems of five plantlets (four true leaf stage) of the sunflower cv. Tunka (Limagrain, France) and soybean cv. Kasatka (VIM, Russia). Strain DSM20129T was a positive control, while sterile water was a negative control. The plants were incubated at 24°C, 80% relative humidity, and 14-h light/day. Wilting and blight on sunflower (Fig. 3) and tan spots on soybean were observed in 15 to 20 days after inoculation for all sunflower strains and strain DSM20129T. The negative control plants were asymptomatic. The bacteria re-isolated from the inoculated plants exhibited the same morphological characteristics and 16S rDNA sequence as the original culture, thus fulfilling Koch's postulates. The presence of C. flaccumfaciens pv. flaccumfaciens in sunflower seeds indicated that the bacterium was transmitted via seed. Sunflower has been previously reported as a host for the pathogen (Harveson et al. 2015). The presence of C. flaccumfaciens pv. flaccumfaciens on beans in Russia was suggested from the disease symptoms (Nikitina and Korsakov 1978), but, to our knowledge, this is the first report of the pathogen affecting sunflower in Russia. Phytosanitary categorization placed C. flaccumfaciens pv. flaccumfaciens in the EPPO A2 list (EPPO 2011). Thus, sunflower seeds should be tested to protect pathogen-free areas from introduction of this pathogen.

Draft Genome Sequences of 9 Actinobacteria from the Family Microbacteriaceae Associated with Insect- and Nematode-Damaged Plants.

Draft genome sequences of 9 strains of known and putative new species of Microbacteriaceae isolated from insect- and nematode-damaged plants were generated using Illumina technology. The data obtained will contribute to the development of the genome-based prokaryote taxonomy and the knowledge on the biology of the microbial group investigated.

Cell wall galactofuranan and pyruvate-containing galactomannan in the cell walls of Clavibacter strains.

The cell wall glycopolymer structures of plant-associated strains Clavibacter sp. VKM Ac-1371, Clavibacter sp. VKM Ac-1372 and Clavibacter sp. VKM Ac-1374, members of three putative new species (family Microbacteriaceae, class Actinobacteria) were studied. Each strain was found to contain two glycopolymers, neutral and acidic ones. The main chain of neutral polymer, identical in all three strains, is (1 â†’ 6)-linked ß-d-galactofuranan with every second galactofuranose residue substituted at position 2 by side disaccharide, α-d-Manp-(1 â†’ 2)-α-d-Ribf-(1 â†’ . The second, acidic polymer, is pyruvate-containing galactomannan with the repeating unit, →3)-α-d-Galp-(1 â†’ 3)-α-d-[4,6-S-Pyr]-Manp-(1 â†’ 3)-α-d-Manp-(1 â†’ . Reducing mannopyranose residues of the acidic polysaccharides repeating unit from strains VKM Ac-1372 and VKM Ac-1374 bear O-acetyl residues additionally. The cell wall glycopolymer structures were established by chemical and NMR spectroscopic methods with using one- and two-dimensional techniques 1H,1H COSY, TOCSY, ROESY and 1H,13C HSQC, HMBC. The results obtained provide new data on diversity of the bacterial cell wall glycopolymers and may prove valuable for microbial taxonomy and insight into the molecular mechanisms of interactions between bacteria and plants and also of bacterial adaptation to survival in desert systems.

D-Rhamnan and Pyruvate-Containing Teichuronic Acid from the Cell Wall of Rathayibacter sp. VKM Ac-2759.

Rathayibacter sp. VKM Ac-2759 (family Microbacteriaceae, class Actinobacteria) contains two glycopolymers in the cell wall. The main chain of rhamnan, glycopolymer 1, is built from the repeating tetrasaccharide units carrying terminal arabinofuranose residues at the non-reducing end, →3)-α-[α-D-Araf-(1→2)]-D-Rhap-(1→2)-α-D-Rhap-(1→3)-α-D-Rhap-(1→2)-α-D-Rhap-(1→. Similar to other described Rathayibacter species, rhamnose in the neutral glycopolymer of the VKM Ac-2759 strain is present in the D-configuration. Acetalated with pyruvic acid teichuronic acid, glycopolymer 2, is composed of the repeating tetrasaccharide units, →4)-ß-D-GlcpA-(1→4)-ß-D-Galp-(1→4)-ß-D-Glcp-(1→3)-ß-[4,6-S-Pyr]-D-Manp-(1→. Glycopolymers 1 and 2 were identified in prokaryotic microorganisms for the first time and their structures were established by chemical analysis and NMR spectroscopy. The obtained data can be used in taxonomic research, as well as for elucidating the mechanisms of plant colonization and infection by bacteria of the Rathayibacter genus.

Draft Genome Sequences of 28 Actinobacteria of the Family Microbacteriaceae Associated with Nematode-Infected Plants.

Draft genome sequences of 28 strains of Microbacteriaceae from plants infested by plant-parasitic nematodes were obtained using Illumina technology. The sequence data will provide useful baseline information for the development of comparative genomics and systematics of Microbacteriaceae and facilitate understanding of molecular mechanisms involved in interactions between plants and nematode-associated bacterial complexes.

Novel galactofuranan and pyruvylated galactomannan in the cell wall of Clavibacter michiganensis subsp. michiganensis VKM Ac-1403T.

The cell wall of Clavibacter michiganensis subsp. michiganensis VKM Ас-1403Т (family Microbacteriaceae, class Actinobacteria) contains two polysaccharides. The first one is neutral (1 â†’ 6) linked galactofuranan in which every second galactofuranose residue in the main chain substituted at position 3 by side trisaccharide, ß-D-GlcpNAc-(1 â†’ 3)-α-L-Rhap-(1 â†’ 2)-α-D-Fucp-(1 â†’. The second polymer is pyruvylated galactomannan with the repeating unit, →3)-α-D-Galp-(1 â†’ 3)-α-D-[4,6-S-Pyr]-Manp-(1 â†’ 3)-α-D-Manp-(1 â†’. The cell wall glycopolymer structures were established by chemical and NMR spectroscopic methods. The obtained results provide new data on the cell wall composition of plant pathogenic species of the genus Clavibacter and can promote understanding the molecular mechanisms involved in colonization and infection of plants.

D-rhamnan and teichuronic acid from the cell wall of Rathayibacter caricis VKM Ac-1799T.

The cell wall of Rathayibacter caricis VKM Ac-1799T (family Microbacteriaceae, class Actinobacteria) was found to contain both neutral and acidic glycopolymers. The first one is D-rhamnopyranan with main chain →2)-α-D-Rhap-(1 â†’ 3)-α-D-Rhap-(1→, where a part of 2-substituted residues bears as a side-chain at position 3 α-D-Manp residues or disaccharides α-D-Araf-(1→2)-α-D-Manp-(1 â†’ . The second polymer is a teichuronic acid with a branched repeating units composed of seven monosaccharides →4)-α-[ß-D-Manp-(1 â†’ 3)]-D-Glcp-(1 â†’ 4)-ß-D-GlcpA-(1 â†’ 2)-ß-[4,6Pyr]-D-Manp-(1 â†’ 4)-ß-L-Rhap-(1 â†’ 4)-ß-D-Glcp-(1 â†’ 4)-ß-D-Glcp-(1 â†’ . The structures of the polymers were determined by chemical and NMR spectroscopic methods.

Draft Genome Sequences of 13 Plant-Associated Actinobacteria of the Family Microbacteriaceae.

Draft genome sequences of 13 bacterial strains from the family Microbacteriaceae were generated using Illumina technology. The genome sizes varied from 3.0 to 4.8 Mb, and the DNA G+C content was 68.1 to 72.5%. The sequences obtained will contribute to the development of genome-based taxonomy and understanding of molecular interactions between bacteria and plants.

Complete and Draft Genome Sequences of 12 Plant-Associated Rathayibacter Strains of Known and Putative New Species.

Complete and draft genome sequences of 12 Rathayibacter strains were generated using Oxford Nanopore and Illumina technologies. The genome sizes of these strains are 3.21 to 4.61 Mb, with high G+C content (67.2% to 72.7%) genomic DNA. Genomic data will provide useful baseline information for natural taxonomy and comparative genomics of members of the genus Rathayibacter.

New glycopolymers containing both D- and L-rhamnopyranoses from Rathayibacter iranicus VKM Ac-1602T cell wall.

The cell wall of Rathayibacter iranicus VKM Ac-1602T (family Microbacteriaceae, class Actinobacteria) is characterised by the absence of phosphate-containing and by the presence of two rhamnose-containing glycopolymers. The first is a branched rhamnomannan, in which 60% of mannose residues of the main chain are glycosylated by terminal mannose residues: →2)-α-D-Rhap-(1 → 3)-α-[α-D-Manp-(1 → 6)]-D-Manp-(1 → . The second is a branched teichuronic acid, in which all the rhamnose residues of the main chain are glycosylated by glucose residues:→3)-α-[α-D-Glcp-(1 → 2)]-L-Rhap-(1 → 4)-ß-D-GlcpA-(1 → 2)-α-D-Manp-(1 → 3)-α-D-Galp-(1 → 3)-ß-D-Glcp-(1 → . Both glycopolymers have the unique structures and described in the cell walls of Gram-positive bacteria for the first time. The obtained data allow for a more complete characterisation of the cell wall of the microorganism under investigation and can serve as a phenotypic characterisation of this bacterium. The glycopolymer structures were established using chemical and nuclear magnetic resonance (NMR) spectroscopy methods.

Draft Genome Sequences of New Isolates and the Known Species of the Family Microbacteriaceae Associated with Plants.

Draft genome sequences of 11 bacteria belonging to the family Microbacteriaceae were obtained using Illumina technology. The genomes of these strains have sizes from 3.14 to 4.30 Mb with their genomic DNA characterized as having high G+C contents (above 65%). These genomic data will be useful for natural taxonomy and comparative genomic studies of bacterial strains of the family Microbacteriaceae.

Rathayibacter oskolensis sp. nov., a novel actinobacterium from Androsace koso-poljanskii Ovcz. (Primulaceae) endemic to the Central Russian Upland.

A rod-shaped, non-endospore-forming and non-motile bacterium, strain DL-329T, was isolated from the above-ground part of a plant, Androsace koso-poljanskii Ovcz. (Primulaceae), at the the State Natural Reserve 'Belogorie', Russia. On the basis of 16S rRNA gene sequence comparisons, the strain clustered with members of the genus Rathayibacter, showing the highest sequence similarity to Rathayibacter tritici (98.89 %), Rathayibacter rathayi (98.82 %) and Rathayibacter festucae (98.82 %). The DNA hybridization experiments demonstrated that strain DL-329T represents a separate genomic species. The results of comparative studies of physiological and chemotaxonomic characteristics, including cell-wall sugar patterns, polar lipid profiles, and the matrix-assisted laser desorption/ionization time-of-flight mass spectra of bacterial cells, allowed clear differentiation of VKM Ac-2121T from the recognized Rathayibacter species at the phenotypic level. Based on the data obtained, a new species, Rathayibacter oskolensis sp. nov., is proposed, with DL-329T (=VKM Ac-2121T=LMG 22542T) as the type strain.

Novel teichulosonic acid and glycosyl 1-phosphate polymers from the cell walls of Arthrobacter sp., strains VKM Ac-2549 and VKM Ac-2550, phylogenetically close to Arthrobacter crystallopoietes.

Novel teichulosonic acid with the repeating unit →6)-ß-D-GlcpNAc-(1→8)-α-Kdn-(2→ has been found in the cell walls of two Arthrobacter strains, VKM Ac-2549 and VKM Ac-2550. The teichulosonic acid was revealed in representatives of the genus Arthrobacter for the first time. Two other polymers identified in the above strains were poly(monoglycosyl 1-phosphate) and poly(diglycosyl 1-phosphate) of hitherto unknown structures, i.e., -6)-α-D-GalpNAc-(1-P-, and -6)-ß-D-GlcpNAc-(1→3)-α-D-Galp-(1-P-. The structures of all three polymers were established by using chemical, NMR spectroscopic and ESI-MS methods. The strains studied in this work differ in the cell wall composition from the type strain of phylogenetically closely related species A. crystallopoietes which was reported to contain a teichoic acid and supposedly had a glycosyl 1-phosphate polymer.

Draft Genome Sequence of Rathayibacter sp. Strain VKM Ac-2630 Isolated from Leaf Gall Induced by the Knapweed Nematode Mesoanguina picridis on Acroptilon repens.

A draft genome sequence of Rathayibacter sp. strain VKM Ac-2630 was derived using Ion Torrent sequencing technology. The genome size of this strain is 3.88 Mb, with an average G+C content of 72.0%. Genomic evidence of an aerobic mode of respiration and a heterotrophic lifestyle of this bacterium was obtained.

Draft Genome Sequence of "Rathayibacter tanaceti" Strain VKM Ac-2596 Isolated from Tanacetum vulgare Infested by a Foliar Nematode.

The draft genome of "Rathayibacter tanaceti" VKM Ac-2596 is 3.17 Mb in size with an average G+C content of 70.7% and comprises at least two nonidentical copies of ribosomal small subunit (SSU-rRNA) genes. The semiconductor sequencing platform Ion Torrent was used.

A novel galactofuranan from the cell wall of Arthrobacter sp. VKM Ас-2576.

The investigated cell wall polysaccharide of Arthrobacter sp. VKM Ac-2576 (phylum Actinobacteria) is a (1→6)-linked ß-D-galactofuranan with the α-D-GlcpNAc3NAc residues that glycosylate virtually all (~90%) hydroxyl groups at C-2 of galactose. Its repeating unit has the following structure: →6)D-ß-Galf-(1→2) ↑ α-D-GlcpNAc3NAc-(1 (90%). The structure of the polysaccharide was established by chemical and NMR spectroscopic methods; it is identified for the first time.