Sequence Identity Values Research Articles

Biochemical and molecular characterization of a novel metalloprotease from Pseudomonas fluorescens strain TBS09

A novel extracellular protease called MPDZ was purified and characterized from Pseudomonas fluorescens strain TBS09. The enzymatic properties of MPDZ were investigated using biochemical and biophysical methods. Matrix assisted laser desorption ionization-time of flight mass spectrometry (MALDI–TOF/MS) analysis revealed that it was a monomer with a molecular mass of 50013.17Da. The NH2-terminal 27 amino acid sequence of MPDZ showed high homology with those of Pseudomonas-proteases of the serralysin family. MPDZ showed optimal activity at pH 7 and 60°C. It was totally inhibited by EGTA, EDTA, and 1,10-phenanthroline, suggesting its belonging to the metalloprotease family. Because of the interesting properties, the mpDZ gene encoding MPDZ was cloned, sequenced, and expressed in E. coli. The deduced amino acid sequence showed a strong homology with other Pseudomonas-metalloproteases. The highest sequence identity value (97%) was obtained with AprX from P. fluorescens strain CY091, with only 12 different amino acid residues. The physico-chemical properties of the extracellular purified recombinant enzyme (rMPDZ) were similar to those of MPDZ. Overall, MPDZ is bestowed with a number of promising biochemical properties that might give new opportunities for its biocatalytic applications. These data constitute an essential first step towards an understanding of the properties of MPDZ enzyme.

Isolation and phylogenetic analysis of three feline calicivirus strains from domestic cats in Jilin Province, China.

Feline calicivirus (FCV) is a highly prevalent pathogen that can cause infectious felid upper respiratory tract disease. The majority of complete genome sequences of FCV strains reported to date are from the USA. In this study, three FCV strains, CH-JL1, CH-JL2 and CH-JL3, were isolated from domestic cats in Jilin Province, China. Sequence analysis revealed that except for strains HRB-SS, WZ-1, XH, 12Q087-1 and 12Q087-5, the 3' untranslated regions (UTRs) of CH-JL2 and CH-JL3 are more than 20 nucleotides longer than those of all other reference isolates. The complete sequences of the three CH-JLs were compared with other reference strains, with nucleotide sequence identity values in the range of 76.2%-82.2%, 76.8%-96.4 and 76.8%-96.4%. Phylogenetic analysis showed that CH-JL1 forms a branch with FB-NJ-13, GD, 12Q087-1 and 12Q087-5. CH-JL2 was found to be most closely related to CH-JL3, forming another branch together with the other isolates. CH-JL1 shares a long nucleotide span with CH-JL2 and CH-JL3. It can be inferred that many FCV strains are co-circulating in Jilin Province. The availability of complete genome sequences will serve as a reference for future epidemiological studies of FCV.

Molecular detection and genetic characterization of Babesia, Theileria and Anaplasma amongst apparently healthy sheep and goats in the central region of Turkey

Babesia spp., Theileria spp. and Anaplasma spp. are significant tick-borne pathogens of livestock globally. In this study, we investigated the presence and distribution of Babesia ovis, Theileria ovis and Anaplasma ovis in 343 small ruminants (249 sheep and 94 goats) from 13 towns in the Central Anatolia region of Turkey using species-specific PCR assays. The PCR were conducted using the primers based on the B. ovis ssu rRNA (BoSSUrRNA), T. ovis ssu rRNA (ToSSUrRNA) and A. ovis major surface protein 4 (AoMSP4) genes, respectively. Fragments of these genes were sequenced for phylogenetic analysis. PCR results revealed that the overall infections of A. ovis, T. ovis and B. ovis were 60.0%, 35.9% and 5.2%, respectively. Co-infection of the animals with two or three pathogens was detected in 105/343 (30.6%) of the ovine samples. The results of sequence analysis indicated that AoMSP4 were conserved among the Turkish samples, with 100% sequence identity values. In contrast, the BoSSUrRNA and ToSSUrRNA gene sequences were relatively diverse with identity values of 98.54%-99.82% and 99.23%-99.81%, respectively. Phylograms were inferred based on the BoSSUrRNA, ToSSUrRNA and AoMSP4 sequences obtained in this study and those from previous studies. B. ovis isolates from Turkey were found in the same clade as the isolates from other countries in phylogenetic analysis. On the other hand, the Turkish T. ovis isolates in the present study formed a monophyletic grouping with the isolates from other countries in a phylogeny based on ToSSUrRNA sequences. Furthermore, phylogenetic analysis using AoMSP4 sequences showed the presence of three genotypes of A. ovis. This study provides important data for understanding the epidemiology of tick-borne diseases in small ruminants and the degree of genetic heterogeneities among these pathogens in Turkey. To our knowledge, this is the first study on the co-infection of Babesia, Theileria and Anaplasma in sheep and goats in Turkey.

Zucchini shoestring virus: a distinct potyvirus in the papaya ringspot virus cluster.

Zucchini shoestring virus (ZSSV) has been proposed to be a putative potyvirus in the papaya ringspot virus (PRSV) cluster, based on the sequence similarity of its coat protein to those of related potyviruses. ZSSV has been associated with the outbreak of a damaging disease of baby marrow (Cucurbita pepo L.) that had been observed throughout the province of KwaZulu-Natal, in the Republic of South Africa (RSA). We report the genome sequence of ZSSV, determined by next-generation sequencing of total RNA extracted from an infected baby marrow (Cucurbita pepo L.). The ZSSV genome is 10,295 nucleotides long excluding the poly(A) tail and displays a typical potyvirus organization. Algerian watermelon mosaic virus (AWMV; EU410442.1) was identified as the closest relative of ZSSV, sharing the highest nucleotide sequence identity of 65.68%. The nucleotide and amino acid sequence identity values for each protein support the differentiation of ZSSV as a member of a distinct species in the genus Potyvirus. This taxonomic position was also confirmed using the Pairwise Sequence Comparison online tool from the National Center for Biotechnology Information. Phylogenetic analysis of the polyprotein coding sequence of ZSSV grouped ZSSV together with AWMV and Moroccan watermelon mosaic virus, but in different clusters. ZSSV is the second cucurbit-infecting virus in the PRSV cluster present in RSA.

Whole genome characterization of a chelonian orthoreovirus strain identifies significant genetic diversity and may classify reptile orthoreoviruses into distinct species

In this study we report the sequence and phylogenetic characterization of an orthoreovirus strain, CH1197/96, isolated from a spur-thighed tortoise (Testudo graeca) on chicken embryo fibroblast cells. The 23,957bp long genome sequence was obtained by combined use of semiconductor and capillary sequencing. Although the genomic characterization showed that the virus was most similar to the bush viper reovirus strain, 47/02, and in phylogenies performed with all segments the two strains formed a monophyletic group, the nucleotide (48.4–70.3%) and amino acid (39.2–80.7%) sequence identity values were moderate between the two reptile origin reoviruses. Based on our results and existing classification criteria for the genus Orthoreovirus, the tortoise reovirus strain CH1197/96 might be the first representative of a novel reptilian origin Orthoreovirus species.

Genome Sequences of Three Turkey Orthoreovirus Strains Isolated in Hungary

We have investigated the genomic properties of three turkey reovirus strains—19831M09, D1246, and D1104—isolated in Hungary in 2009. Sequence identity values and phylogenetic calculations indicated genetic conservativeness among the studied Hungarian strains and a close relationship with strains isolated in the United States.

Molecular detection and genetic identification of Babesia bigemina, Theileria annulata, Theileria orientalis and Anaplasma marginale in Turkey

Babesia spp., Theileria spp. and Anaplasma spp. are significant tick-borne pathogens of livestock globally. In this study, we investigated the presence and distribution of Babesia bigemina, Theileria annulata, Theileria orientalis and Anaplasma marginale in cattle from 6 provinces of Turkey using species-specific PCR assays. The PCR were conducted using the primers based on the B. bigemina rhoptry-associated protein 1a (BbiRAP-1a), T. annulata merozoite surface antigen-1 (Tams-1), T. orientalis major piroplasm surface protein (ToMPSP) and A. marginale major surface protein 4 (AmMSP4) genes, respectively. Fragments of B. bigemina internal transcribed spacer (BbiITS), T. annulata internal transcribed spacer (TaITS), ToMPSP and AmMSP4 genes were sequenced for phylogenetic analysis. PCR results revealed that the overall infections of A. marginale, T. annulata, B. bigemina and T. orientalis were 29.1%, 18.9%, 11.2% and 5.6%, respectively. The co-infection of two or three pathogens was detected in 29/196 (15.1%) of the cattle samples. The results of sequence analysis indicated that BbiRAP-1a, BbiITS, Tams-1, ToMPSP and AmMSP4 were conserved among the Turkish samples, with 99.76%, 99–99.8%, 99.34–99.78%, 96.9–99.61% and 99.42–99.71% sequence identity values, respectively. In contrast, the Turkish TaITS gene sequences were relatively diverse with 92.3–96.63% identity values. B. bigemina isolates from Turkey were found in the same clade as the isolates from other countries in phylogenetic analysis. On the other hand, phylogenetic analysis based on T. annulata ITS sequences revealed significant differences in the genotypes of T. annulata isolates from Turkey. Additionally, the T. orientalis isolates from Turkish samples were classified as MPSP type 3 genotype. This is the first report of type 3 MPSP in Turkey. Moreover, AmMSP4 isolates from Turkey were found in the same clade as the isolates from other countries. This study provides important data for understanding the epidemiology of tick-borne diseases and it is expected to improve approach for diagnosis and control of tick-borne diseases in Turkey.

A phylogenomic and molecular markers based analysis of the phylum Chlamydiae: proposal to divide the class Chlamydiia into two orders, Chlamydiales and Parachlamydiales ord. nov., and emended description of the class Chlamydiia.

The phylum Chlamydiae contains nine ecologically and genetically diverse families all placed within a single order. In this work, we have completed a comprehensive comparative analysis of 36 sequenced Chlamydiae genomes in order to identify shared molecular characteristics, namely conserved signature insertions/deletions (CSIs) and conserved signature proteins (CSPs), which can serve as distinguishing characteristics of supra-familial clusters within the phylum Chlamydiae. Our analysis has led to the identification of 32 CSIs which are specific to clusters within the phylum Chlamydiae at various phylogenetic depths. Importantly, 17 CSIs and 98 CSPs were found to be specific for the family Chlamydiaceae while another 3 CSI variants and 15 CSPs were specific for a grouping of the families Criblamydiaceae, Parachlamydiaceae, Simkaniaceae and Waddliaceae. These two clusters were also found to be distinguishable in 16S rRNA based phylogenetic trees, concatenated protein based phylogenetic trees, character compatibility based phylogenetic analyses, and on the basis of 16S rRNA gene sequence identity and average amino acid identity values. On the basis of the identified molecular characteristics, branching in phylogenetic trees, and the genetic distance between the two clusters within the phylum Chlamydiae we propose a division of the class Chlamydiia into two orders: an emended order Chlamydiales, containing the family Chlamydiaceae and the closely related Candidatus family Clavichlamydiaceae, and the novel order Parachlamydiales ord. nov. containing the families Parachlamydiaceae, Simkaniaceae and Waddliaceae and the Candidatus families Criblamydiaceae, Parilichlamydiaceae, Piscichlamydiaceae, and Rhabdochlamydiaceae. We also include a brief discussion of the reunification of the genera Chlamydia and Chlamydophila.

A novel keratinase from Bacillus tequilensis strain Q7 with promising potential for the leather bating process

The present paper reports on the purification and characterization of an extracellular keratinase (KERQ7) newly purified from Bacillus tequilensis Q7. Pure protein was obtained after ammonium sulfate fractionation (30–60%), followed by Mono S Sepharose cation-exchange chromatography. MALDI-TOF/MS analysis revealed that the purified enzyme was a monomer with a molecular mass of 28,355.07-Da. The sequence of the 21 N-terminal residues of KERQ7 showed high homology with those of Bacillus keratinases. Optimal activity was achieved at pH 7 and 30°C. KERQ7 was completely inhibited by PMSF and DFP, which suggests that it belongs to the serine keratinase family. KERQ7 displayed higher levels of hydrolysis and catalytic efficiency than Basozym® CS 10, Koropon® SC 5K, and Pyrase® 250 MP. The kerQ7 gene encoding KERQ7 was cloned, sequenced, and expressed in Escherichia coli BL21(DE3)pLysS. The biochemical properties of the extracellular purified recombinant enzyme (rKERQ7) were similar to those of native KERQ7. The deduced amino acid sequence showed strong homology with other Bacillus keratinases. The highest sequence identity value (97%) was obtained with KERUS from Brevibacillus brevis US575, with only 7 aa of difference. These properties make KERQ7 a potential promising and eco-friendly enzymatically enhanced process for animal hide bating in the leather processing industry.

Genomic analyses of cherry rusty mottle group and cherry twisted leaf-associated viruses reveal a possible new genus within the family betaflexiviridae.

It is demonstrated that closely related viruses within the family Betaflexiviridae are associated with a number of diseases that affect sweet cherry (Prunus avium) and other Prunus spp. Cherry rusty mottle-associated virus (CRMaV) is correlated with the appearance of cherry rusty mottle disease (CRMD), and Cherry twisted leaf-associated virus (CTLaV) is linked to cherry twisted leaf disease (CTLD) and apricot ringpox disease (ARPD). Comprehensive analysis of previously reported full genomic sequences plus those determined in this study representing isolates of CTLaV, CRMaV, Cherry green ring mottle virus, and Cherry necrotic rusty mottle virus revealed segregation of sequences into four clades corresponding to distinct virus species. High-throughput sequencing of RNA from representative source trees for CRMD, CTLD, and ARPD did not reveal additional unique virus sequences that might be associated with these diseases, thereby further substantiating the association of CRMaV and CTLaV with CRMD and CTLD or ARPD, respectively. Based on comparison of the nucleotide and amino acid sequence identity values, phylogenetic relationships with other triple-gene block-coding viruses within the family Betaflexiviridae, genome organization, and natural host range, a new genus (Robigovirus) is suggested.

Complete genome sequence and description of Salinispira pacifica gen. nov., sp. nov., a novel spirochaete isolated form a hypersaline microbial mat.

During a study of the anaerobic microbial community of a lithifying hypersaline microbial mat of Lake 21 on the Kiritimati atoll (Kiribati Republic, Central Pacific) strain L21-RPul-D2T was isolated. The closest phylogenetic neighbor was Spirochaeta africana Z-7692T that shared a 16S rRNA gene sequence identity value of 90% with the novel strain and thus was only distantly related. A comprehensive polyphasic study including determination of the complete genome sequence was initiated to characterize the novel isolate.Cells of strain L21-RPul-D2T had a size of 0.2 – 0.25 × 8–9 μm, were helical, motile, stained Gram-negative and produced an orange carotenoid-like pigment. Optimal conditions for growth were 35°C, a salinity of 50 g/l NaCl and a pH around 7.0. Preferred substrates for growth were carbohydrates and a few carboxylic acids. The novel strain had an obligate fermentative metabolism and produced ethanol, acetate, lactate, hydrogen and carbon dioxide during growth on glucose. Strain L21-RPul-D2T was aerotolerant, but oxygen did not stimulate growth. Major cellular fatty acids were C14:0, iso-C15:0, C16:0 and C18:0. The major polar lipids were an unidentified aminolipid, phosphatidylglycerol, an unidentified phospholipid and two unidentified glycolipids. Whole-cell hydrolysates contained L-ornithine as diagnostic diamino acid of the cell wall peptidoglycan. The complete genome sequence was determined and annotated. The genome comprised one circular chromosome with a size of 3.78 Mbp that contained 3450 protein-coding genes and 50 RNA genes, including 2 operons of ribosomal RNA genes. The DNA G + C content was determined from the genome sequence as 51.9 mol%. There were no predicted genes encoding cytochromes or enzymes responsible for the biosynthesis of respiratory lipoquinones.Based on significant differences to the uncultured type species of the genus Spirochaeta, S. plicatilis, as well as to any other phylogenetically related cultured species it is suggested to place strain L21-RPul-D2T (=DSM 27196T = JCM 18663T) in a novel species and genus, for which the name Salinispira pacifica gen. nov., sp. nov. is proposed.

Recharacterization of Morphological and Genetic Feature of Getah Virus Isolated from South Korea

Three QIAG93 strains, QIAG9301, QIAG9302 and QIAG9303 that have been identified as Getah virus (GETV) are analyzed in this study. The morphological features of three virus isolates were observed by using electron microscopy, suggesting that the QIAG9301, QIAG9302 and QIAG9303 isolate can be classified as tentative member of Alphavirus species in the Semliki Forest complex. The full length of the structural polyprotein gene of each QIAG93 isolate (QIAG9301, QIAG9302 and QIAG9303) was determined that are identical in size, comprising 3759 nucleotides that encoded 1253 amino acids. The sequence analysis of the structural polyprotein gene, including the C, E3, E1, 6K and E2 domain, showed that each QIAG93 isolate shares >98.9% sequence identity. The phylogenetic analysis and evolutionary distance (ED) estimation based on the structural polyprotein gene sequence showed that the QIAG9301 isolate is closely related to GETV South Korea strain (99.9% sequence identity and ED value 0.001) and Chinese GETV YN0540 strain (99.3% sequence identity ED value 0.007) than other Alphavirus species analyzed in this study. Both QIAG9032 and QIAG9303 isolate exhibited genetically close relationship with Mongolian GETV LEIV17741MPR strain (at least 99.3% sequence identity and mean ED value 0.0065). Therefore, our findings will be valuable for molecular epidemiological analyses of GETV in Korea and contribute to a further study on pathogenicity of three QIAG93 isolates in animals.

An epidemiological survey of bovine Babesia and Theileria parasites in cattle, buffaloes, and sheep in Egypt

Cattle, buffaloes, and sheep are the main sources of meat and milk in Egypt, but their productivity is thought to be greatly reduced by hemoprotozoan parasitic diseases. In this study, we analyzed the infection rates of Babesia bovis, Babesia bigemina, Theileria annulata, and Theileria orientalis, using parasite-specific PCR assays in blood–DNA samples sourced from cattle (n=439), buffaloes (n=50), and sheep (n=105) reared in Menoufia, Behera, Giza, and Sohag provinces of Egypt. In cattle, the positive rates of B. bovis, B. bigemina, T. annulata, and T. orientalis were 3.18%, 7.97%, 9.56%, and 0.68%, respectively. On the other hand, B. bovis and T. orientalis were the only parasites detected in buffaloes and each of these parasites was only found in two individual DNA samples (both 2%), while one (0.95%) and two (1.90%) of the sheep samples were positive for B. bovis and B. bigemina, respectively. Sequence analysis showed that the B. bovis Rhoptry Associated Protein-1 and the B. bigemina Apical Membrane Antigen-1 genes were highly conserved among the samples, with 99.3–100% and 95.3–100% sequence identity values, respectively. In contrast, the Egyptian T. annulata merozoite surface antigen-1 gene sequences were relatively diverse (87.8–100% identity values), dispersing themselves across several clades in the phylogenetic tree containing sequences from other countries. Additionally, the T. orientalis Major Piroplasm Surface Protein (MPSP) gene sequences were classified as types 1 and 2. This is the first report of T. orientalis in Egypt, and of type 2 MPSP in buffaloes. Detection of MPSP type 2, which is considered a relatively virulent genotype, suggests that T. orientalis infection may have veterinary and economic significance in Egypt. In conclusion, the present study, which analyzed multiple species of Babesia and Theileria parasites in different livestock animals, may shed an additional light on the epidemiology of hemoprotozoan parasites in Egypt.

Determination of microheterogeneous substitution in shrimp tropomyosin and its effect on IgE-binding capacity

Tropomyosin (TM), the major shrimp allergen that belongs to a highly conserved protein family, has frequently been investigated owing to its high rate of human consumption. In this study, the sequence microheterogeneity of TMs, irrespective of the organism and differences in the N- and C-termini, from different shrimp species was analyzed. The TM sequences were analyzed using bioinformatics tools and confirmed by dot-blot using human serum. The results showed that all 13 shrimp species share high mutual TM sequence identity values, ranging from 85.5 to 99.7 %, and 60 cases of sequence microheterogeneity were identified in shrimp TM, with a sequence identity ranging from 90.1 to 99.7 %. A total of 719 unique amino acid residue substitutions (that affect 43 residues, 15 % of 284 residues) involving sequence microheterogeneity were characterized, in which 214 substitutions involving 15 residues were located in the epitope regions. About 45 % of these substitutions occurred in the TM sequences that are reported allergens, whereas 43 % of the substitutions occurred overall for the allergenic and nonallergenic TMs. Dot-blot immunoassay revealed that single microheterogeneous mutation of allergic peptides resulted in significant changes in the IgE-binding capacity of the peptides. Overall, microheterogeneous mutations of TM occurred in different shrimp species. These mutations can potentially induce changes in the IgE-binding capacity and might be responsible for variations in the hypersensitivity to different shrimp species.

SCLpredT: Ab initio and homology-based prediction of subcellular localization by N-to-1 neural networks

The prediction of protein subcellular localization is a important step towards the prediction of protein function, and considerable effort has gone over the last decade into the development of computational predictors of protein localization. In this article we design a new predictor of protein subcellular localization, based on a Machine Learning model (N-to-1 Neural Networks) which we have recently developed. This system, in three versions specialised, respectively, on Plants, Fungi and Animals, has a rich output which incorporates the class “organelle” alongside cytoplasm, nucleus, mitochondria and extracellular, and, additionally, chloroplast in the case of Plants. We investigate the information gain of introducing additional inputs, including predicted secondary structure, and localization information from homologous sequences. To accommodate the latter we design a new algorithm which we present here for the first time. While we do not observe any improvement when including predicted secondary structure, we measure significant overall gains when adding homology information. The final predictor including homology information correctly predicts 74%, 79% and 60% of all proteins in the case of Fungi, Animals and Plants, respectively, and outperforms our previous, state-of-the-art predictor SCLpred, and the popular predictor BaCelLo. We also observe that the contribution of homology information becomes dominant over sequence information for sequence identity values exceeding 50% for Animals and Fungi, and 60% for Plants, confirming that subcellular localization is less conserved than structure.SCLpredT is publicly available at http://distillf.ucd.ie/sclpredt/. Sequence- or template-based predictions can be obtained, and up to 32kbytes of input can be processed in a single submission.

Taxonomy and evolution of bacteriochlorophyll a-containing members of the OM60/NOR5 clade of marine gammaproteobacteria: description of Luminiphilus syltensis gen. nov., sp. nov., reclassification of Haliea rubra as Pseudohaliea rubra gen. nov., comb. nov., and emendation of Chromatocurvus halotolerans

BackgroundAerobic gammaproteobacteria affiliated to the OM60/NOR5 clade are widespread in saline environments and of ecological importance in several marine ecosystems, especially the euphotic zone of coastal areas. Within this group a close relationship between aerobic anoxygenic photoheterotrophs and non-phototrophic members has been found.ResultsSeveral strains of aerobic red-pigmented bacteria affiliated to the OM60/NOR5 clade were obtained from tidal flat sediment samples at the island of Sylt (North Sea, Germany). Two of the novel isolates, Rap1red and Ivo14T, were chosen for an analysis in detail. Strain Rap1red shared a 16S rRNA sequence identity of 99% with the type strain of Congregibacter litoralis and was genome-sequenced to reveal the extent of genetic microheterogeneity among closely related strains within this clade. In addition, a draft genome sequence was obtained from the isolate Ivo14T, which belongs to the environmental important NOR5-1 lineage that contains so far no cultured representative with a comprehensive description. Strain Ivo14T was characterized using a polyphasic approach and compared with other red-pigmented members of the OM60/NOR5 clade, including Congregibacter litoralis DSM 17192T, Haliea rubra DSM 19751T and Chromatocurvus halotolerans DSM 23344T. All analyzed strains contained bacteriochlorophyll a and spirilloxanthin as photosynthetic pigments. Besides a detailed phenotypic characterization including physiological and chemotaxonomic traits, sequence information based on protein-coding genes and a comparison of draft genome data sets were used to identify possible features characteristic for distinct taxa within this clade.ConclusionsComparative sequence analyses of the pufLM genes of genome-sequenced representatives of the OM60/NOR5 clade indicated that the photosynthetic apparatus of these species was derived from a common ancestor and not acquired by multiple horizontal gene transfer from phylogenetically distant species. An affiliation of the characterized bacteriochlorophyll a-containing strains to different genera was indicated by significant phenotypic differences and pufLM nucleotide sequence identity values below 82%. The revealed high genotypic and phenotypic diversity of closely related strains within this phylogenetic group reflects a rapid evolution and frequent niche separation in the OM60/NOR5 clade, which is possibly driven by the necessities of an adaptation to oligotrophic marine habitats.

S1 gene sequence analysis of new variant isolates of avian infectious bronchitis virus in Tunisia.

Tissue samples were collected from suspected broiler flocks showing respiratory signs to identify infectious bronchitis virus (IBV), characterize emerging field strains, and study their relationships with the Massachusetts H120 strain, the only IB vaccine used in Tunisia. Several IBV isolates were identified from field samples collected from flocks located in different regions in the northeast of Tunisia. The IBV isolates were characterized and compared to commonly used vaccine strains (including 793B, D274, and H120 types), other reference IBV strains from Europe, and the recently characterized Tunisian field variants TN20/00, TN200/01, and TN335/01. Reverse transcription-polymerase chain reaction and nucleotide sequencing analyses of the hypervariable regions of the S1 gene were carried out. Four new IBV variants were isolated during the period 2007-10 and were designated TN295/07, TN296/07, TN556/07, and TN557/07. The amino acid sequence data showed 100% similarity between TN295/07 and TN296/07, suggesting that these two isolates are identical and belong to the same genotype. Similar results were demonstrated for TN556/07 and TN557/07. Sequence identity values indicated that TN296/07 and TN556/07 share 55% amino acid homologies between each other, but are very different from the reference IBV serotypes, in particular the H120 strain. It was also shown that they have 50%-77% similarities with the Tunisian virus isolated between 2000 and 2001. Phylogenetic clustering allowed classification of these Tunisian isolates as new genotypes that are closer to TN200/01, TN335/01 Tunisian field variants, and Italy02 variant than MassH120 vaccine strain. S1 sequence analyses confirmed the cocirculation of H120 vaccine strain with novel IBV variants isolated from Tunisian field.

Molecular characterization of sweet potato leaf curl virus (SPLCV) isolates from Korea: phylogenetic relationship and recombination analysis

The complete DNA genome of sweet potato leaf curl virus (SPLCV) from samples obtained from eight regions was amplified by PCR and characterized in this study. The DNA genome of one group (SPLCV Korea group 1) consisted of 2828 nucleotides and that of the second group (SPLCV Korea group 2) consisted of 2829 nucleotides. Sequence comparisons showed that the genome sequences of SPLCV Korea isolates were closely related to those of SPLCV Brazil isolates (FJ969834, FJ969835, and FJ969836), SPLCV Japan isolate (AB433788), and SPLCV USA isolate (AF104036) with nucleotide sequence identity values ranging from 96-98%. Analysis of the phylogenetic relationship of SPLCV Korea isolates with other begomoviruses revealed that the majority of SPLCV Korea isolates were clustered with SPLCV Brazil isolates (FJ969834, FJ969835, and FJ969836). Recombination analysis results revealed three recombinations among SPLCV Korea isolates, SPLCV isolates from Brazil and Japan, and ipomoea yellow vein virus (IYVV) Italy isolate.

First Record of Phytophthora nicotianae Causing Leaf Blight on Rhododendron in Greece.

Species of Rhododendron and resulting hybrids are very important hosts of the quarantine pathogen Phytophthora ramorum, since they play a major role in the spread of the pathogen in Europe. However, many other Phytophthora species infect these hosts, causing similar symptoms. Widmer (4) listed 17 Phytophthora species as foliar pathogens of rhododendron in the United States. A survey was conducted in Greece in October 2009, in which potted plants of Rhododendron spp. were inspected for symptoms of necrotic lesions on leaves and buds caused by P. ramorum. Symptomatic plants were observed in one of the nurseries inspected in the Triphylia Region in southwestern Peloponnese. Isolations from symptomatic leaves on PARBhy-V8 selective agar medium (1) yielded Phytophthora isolates. Colonies on V8 juice agar appeared white and cottony, with a radial growth of 4.2 to 4.6 mm per day at 28°C with a maximum growth temperature of 36°C. Sporangia were produced abundantly on the medium surface and in water; the sporangia were broadly ovoid and papillate and 35 to 50 × 25 to 35 μm. Chlamydospores, 25 to 40 μm in diameter, were observed in 2-week-old cultures, while no sexual structures were observed. Three of the isolates examined were identified as P. nicotianae B. de Haan on the basis of morphological and physiological features (3,4). Genomic DNA was extracted from pure cultures of an isolate and the internal transcribed spacer (ITS) region was amplified using the ITS4/5 primer pair. Sequence analyses by BLAST indicated that the isolates were most similar to P. nicotianae (GenBank Accession No. AJ 854295.1) with sequence identity values of 99%. One of the isolates was deposited in the culture collection of the University of Athens (ATHUM 6519). Detached wounded leaves of Rhododendron hybrid cv. Red Jack were inoculated with agar plugs. Necrotic lesions, similar to those observed in the nursery, appeared on the inoculated leaves after 7 days of incubation at 26°C, while no symptoms developed on control leaves inoculated with sterile agar plugs. The pathogen was consistently reisolated from infected leaves, but not from the controls. P. nicotianae, being a thermophilic species, is the most common Phytophthora species in Greece, reported on more than 30 plant species (2). This pathogen has been reported on Rhododendron spp. in the United States (3,4), but to our knowledge, there was no record of this pathogen on these hosts as yet in Europe and this is the first published report of the pathogen on Rhododendron in Greece.

First Report of Crown Rot on Gypsophila (Gypsophila paniculata) Caused by Fusarium proliferatum in Korea.

Gypsophilas commonly cultivated are Gypsophila elegans B. and G. paniculata L. In September of 2009 and 2010, a severe wilt symptom due to crown rot was observed on G. paniculata (cv. Bristol Fairy) in greenhouses in Yeosu, South Korea. The area of cultivation (~8 ha) in Yeosu covers 90% of production in the Jeonnam Province. Disease outbreak was 20 to 30% in affected greenhouses. Early symptoms included brown discoloration surrounding basal stems and slight wilting. Late symptoms included a sunken stem rot next to the roots, root rot, severe wilting, and dying plants. The causal fungus appeared to invade plants through the basal stem, causing a crown rot that prevented the plant from taking up water and nutrients. Crown rot occurred on young and mature plants. Ten fungal isolates were recovered from basal stems and roots of wilted plants. Microconidia were abundantly produced on potato dextrose agar (PDA), V8 juice agar (VA), carnation leaf agar (CLA), and oatmeal agar (OA). Microconidia were single celled, variable, oval-ellipsoid cylindrical, straight to curved, club-to-kidney shaped or spindle shaped on OA, more slender on VA. Macroconidia were not found on any media used. Microconidia on PDA were 5.9 to 15.1 (9.9) × 2.7 to 4.3 (3.5) μm. Germinated conidia (or false conidia) were often formed on CLA. Conidiophores as phialides were singly formed but often branched. Length of conidiophores was up to 31.1 μm on CLA. Small-sized chlamydospores were rarely found. Fusarium isolates (EML-GYP1, 2, and 3) were selected and identified. From extracted genomic DNA, the internal transcribed spacer (ITS) region including 5.8S rDNA was amplified using ITS1F (5'-CTTGGTCATTTAGAGGAAGT-3') and LR5F (5'-GCTATCCTGAGGGAAAC-3') primers. Sequence analyses by BLAST indicated that the isolates (GenBank HM560019, HM560020, and HM560021) were most similar to F. proliferatum (EF4534150) with sequence identity values of 99.3, 99.4, and 99.1%, respectively. The causal fungus was determined to be F. proliferatum based on morphological data and ITS rDNA sequences. Pathogenicity tests with the three isolates were performed on 10 plants of G. paniculata using the dipping method. Healthy roots and basal stems were soaked in a conidial suspension adjusted to ~1.2 × 106 conidia/ml (distilled water) for 15 min. Plants were potted in sterile soil, kept in a humid chamber for 72 h, and moved to a greenhouse. The experiment was carried out in duplicate and repeated two times. Similar symptoms to those observed in the greenhouses were seen 7 days after inoculation. The causal fungus was reisolated from the artificially inoculated basal stems, fulfilling Koch's postulates. Control plants whose basal stems and roots were dipped in sterile water showed no crown rot and wilt symptoms. EML-GYP2 was determined to be the most pathogenic. Ten records of disease caused by three Fusarium species (Fusarium sp., F. oxysporum, and F. udum) have been found on gypsophilas (1), but only F. oxysporum has been reported to cause wilt on G. elgans in Korea (2). To our knowledge, this is the first report of crown rot on gypsophila caused by F. proliferatum in Korea as well as the world.