Genome Wide Search for Biomarkers to Diagnose Yersinia Infections

Bacterial identification on the basis of the highly conserved 16S rRNA (rrs) gene is limited by its presence in multiple copies and a very high level of similarity among them. The need is to look for other genes with unique characteristics to be used as biomarkers. Fifty-one sequenced genomes belonging to 10 different Yersinia species were used for searching genes common to all the genomes. Out of 304 common genes, 34 genes of sizes varying from 0.11 to 4.42 kb, were selected and subjected to in silico digestion with 10 different Restriction endonucleases (RE) (4–6 base cutters). Yersinia species have 6–7 copies of rrs per genome, which are difficult to distinguish by multiple sequence alignments or their RE digestion patterns. However, certain unique combinations of other common gene sequences—carB, fadJ, gluM, gltX, ileS, malE, nusA, ribD, and rlmL and their RE digestion patterns can be used as markers for identifying 21 strains belonging to 10 Yersinia species: Y. aldovae, Y. enterocolitica, Y. frederiksenii, Y. intermedia, Y. kristensenii, Y. pestis, Y. pseudotuberculosis, Y. rohdei, Y. ruckeri, and Y. similis. This approach can be applied for rapid diagnostic applications.

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Searching Biomarkers in the Sequenced Genomes of <Emphasis Type="Italic">Staphylococcus</Emphasis> for their Rapid Identification

Bacterial identification using rrs (16S rRNA) gene is widely reported. Bacteria possessing multiple copies of rrs lead to overestimation of its diversity. Staphylococcus genomes carries 5–6 copies of rrs showing high similarity in their nucleotide sequences, which lead to ambiguous results. The genomes of 31 strains of Staphylococcus representing 7 species were searched for the presence of common genes. In silico digestion of 34 common genes using 10 restriction endonucleases (REs) lead to select gene-RE combinations, which could be used as biomarkers. RE digestion of recA allowed unambiguous identification of 13 genomes representing all the 7 species. In addition, a few more genes (argH, argR, cysS, gyrB, purH, and pyrE) and RE combinations permitted further identification of 12 strains. By employing additional RE and genes unique to a particular strain, it was possible to identify the rest 6 Staphylococcus aureus strains. This approach has the potential to be utilized for rapid detection of Staphylococcus strains.

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Genome Wide Analysis for Rapid Identification of Vibrio Species

The highly conserved 16S rRNA (rrs) gene is generally used for bacterial identification. In organisms possessing multiple copies of rrs, high intra-genomic heterogeneity does not allow easy distinction among different species. In order to identify Vibrio species, a wide range of genes have been employed. There is an urgent requirement of a consensus gene, which can be used as biomarker for rapid identification. Eight sequenced genomes of Vibrio species were screened for selecting genes which were common among all the genomes. Out of 108 common genes, 24 genes of sizes varying from 0.11 to 3.94 kb were subjected to in silico digestion with 10 type II restriction endonucleases (RE). A few unique genes—dapF, fadA, hisD, ilvH, lpxC, recF, recR, rph and ruvB in combination with certain REs provided unique digestion patterns, which can be used as biomarkers. This protocol can be exploited for rapid diagnosis of Vibrio species.

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Combined Physical and Genetic Map of the Pseudomonas putida KT2440 Chromosome

A combined physical and genetic map of the Pseudomonas putida KT2440 genome was constructed from data obtained by pulsed-field gel electrophoresis techniques (PFGE) and Southern hybridization. Circular genome size was estimated at 6.0 Mb by adding the sizes of 19 SwaI, 9 PmeI, 6 PacI, and 6 I-CeuI fragments. A complete physical map was achieved by combining the results of (i) analysis of PFGE of the DNA fragments resulting from digestion of the whole genome with PmeI, SwaI, I-CeuI, and PacI as well as double digestion with combinations of these enzymes and (ii) Southern hybridization analysis of the whole wild-type genome digested with different enzymes and hybridized against a series of probes obtained as cloned genes from different pseudomonads of rRNA group I and Escherichia coli, as P. putida DNA obtained by PCR amplification based on sequences deposited at the GenBank database, and by labeling of macrorestriction fragments of the P. putida genome eluted from agarose gels. As an alternative, 10 random mini-Tn5-Km mutants of P. putida KT2440 were used as a source of DNA, and the band carrying the mini-Tn5 in each mutant was identified after PFGE of a series of complete chromosomal digestions and hybridization with the kanamycin resistance gene of the mini-Tn5 as a probe. We established a circular genome map with an average resolution of 160 kb. Among the 63 genes located on the genetic map were key markers such as oriC, 6 rrn loci (rnnA to -F), recA, ftsZ, rpoS, rpoD, rpoN, and gyrB; auxotrophic markers; and catabolic genes for the metabolism of aromatic compounds. The genetic map of P. putida KT2440 was compared to those of Pseudomonas aeruginosa PAO1 and Pseudomonas fluorescens SBW25. The chromosomal backbone revealed some similarity in gene clustering among the three pseudomonads but differences in physical organization, probably as a result of intraspecific rearrangements.     

Identification of Cryptosporidium spp. Oocysts in United Kingdom Noncarbonated Natural Mineral Waters and Drinking Waters by Using a Modified Nested PCR-Restriction Fragment Length Polymorphism Assay

We describe a nested PCR-restriction fragment length polymorphism (RFLP) method for detecting low densities of Cryptosporidium spp. oocysts in natural mineral waters and drinking waters. Oocysts were recovered from seeded 1-liter volumes of mineral water by filtration through polycarbonate membranes and from drinking waters by filtration, immunomagnetizable separation, and filter entrapment, followed by direct extraction of DNA. The DNA was released from polycarbonate filter-entrapped oocysts by disruption in lysis buffer by using 15 cycles of freeze-thawing (1 min in liquid nitrogen and 1 min at 65°C), followed by proteinase K digestion. Amplicons were readily detected from two to five intact oocysts on ethidium bromide-stained gels. DNA extracted from Cryptosporidium parvum oocysts, C. muris (RN 66), C. baileyi (Belgium strain, LB 19), human-derived C. meleagridis, C. felis (DNA from oocysts isolated from a cat), and C. andersoni was used to demonstrate species identity by PCR-RFLP after simultaneous digestion with the restriction enzymes DraI and VspI. Discrimination between C. andersoni and C. muris isolates was confirmed by a separate, subsequent digestion with DdeI. Of 14 drinking water samples tested, 12 were found to be positive by microscopy, 8 were found to be positive by direct PCR, and 14 were found to be positive by using a nested PCR. The Cryptosporidium species detected in these finished water samples was C. parvum genotype 1. This method consistently and routinely detected >5 oocysts per sample.     

Deoxyribose-5-P aldolase: subunit structure and composition of active site lysine region

Deoxyribose-5-P aldolase, a Class I aldolase, from Salmonella typhimurium has a molecular weight of 57,000 and is composed of two subunits of 28,500 molecular weight. Evidence from fingerprint analysis of tryptic digests and carboxypeptidase digestion suggests that the two subunits are identical. The COOH-terminal tyrosine residue which is removed by carboxypeptidase digestion appears to be necessary for catalytic activity but not for substrate binding. A tryptic peptide containing the “active site” lysyl residue modified by acetaldehyde has been purified and the following amino acid composition determined: (Ala₃, Gly₃, Thr₃, Asx₂, Ser, Ile, Phe, 1N-Lys)-Lys.     

Development of Genomic Tools for the Identification of Certain Pseudomonas up to Species Level

Pseudomonas is a highly versatile bacterium at the species level with great ecological significance. These genetically and metabolically diverse species have undergone repeated taxonomic revisions. We propose a strategy to identify Pseudomonas up to species level, based on the unique features of their 16S rDNA (rrs) gene sequence, such as the frame work of sequences, sequence motifs and restriction endonuclease (RE) digestion patterns. A species specific phylogenetic framework composed of 31 different rrs sequences, allowed us to segregate 1,367 out of 2,985 rrs sequences of this genus, which have been classified at present only up to genus (Pseudomonas) level, as follows: P. aeruginosa (219 sequences), P. fluorescens (463 sequences), P. putida (347 sequences), P. stutzeri (197 sequences), and P. syringae (141 sequences). These segregations were validated by unique 30–50 nucleotide long motifs and RE digestion patterns in their rrs. A single gene thus provides multiple makers for identification and surveillance of Pseudomonas.     

Needle-in-a-haystack detection and identification of base substitution mutations in human tissues

Background and induced germline mutagenesis and other genotoxicity studies have been hampered by the lack of a sufficiently sensitive technique for detecting mutations in a small cluster of cells or a single cell in a tissue sample composed of millions of cells. The most frequent type of genetic alteration is intragenic. The vast majority of oncogenic mutations in human and mammalian cancer involves only single base substitutions. We have developed universally applicable techniques that not only provide the necessary sensitivity and specificity for site specific mutagenesis studies, but also identify the point mutation. The exponential amplification procedures of polymerase chain reaction (PCR) and ligase chain reaction (LCR) have been combined with restriction endonuclease (RE) digestion to enable the selective enrichment and detection of single base substitution mutations in human oncogenic loci at a sensitivity of one mutant in more than 10⁷ wild type alleles. These PCR/RE/LCR procedures have been successfully designed and used for codons 12 and 248 of the Ha-ras and p53 genes, respectively, both of which contain a natural MspI restriction endonuclease recognition sequence. These procedures have also been adapted for the detection and identification of mutations in oncogenic loci that do not contain a natural restriction endonuclease recognition sequence. Using PCR techniques, a HphI site was incorporated into the codons 12/13 region of the human N-ras gene, which was then used for the selective enrichment of mutants at this oncogenic locus. These PCR/RE/LCR procedures for base substitution mutations in codon 12 of the N-ras gene were found to have the sensitivity of detection of at least one mutant allele in the presence of the DNA equivalent of 10⁶ wild type cells. Only one peripheral blood leukocyte DNA specimen out of nine normal individuals displayed an observable Ha-ras mutation that was present at frequency between 10⁻⁵ and 10⁻⁶. These PCR/RE/LCR techniques for detecting and identifying base substitution mutations are universally applicable to almost any locus or base site within the human or animal genome. With the added advantage of the adjustability of both the amount of DNA (number of genomes) to be tested and the sensitivity (10⁻² to 10⁻⁷) of the assay selection or enrichment procedures, these PCR/RE/LCR techniques will be useful in addressing a broad range of important questions in mutagenesis and carcinogenesis.     

A Polymerase Chain Reaction Method for Identification of Five Major Meloidogyne Species

A polymerase chain reaction (PCR) method for discriminating Meloidogyne incognita, M. arenaria, M. javanica, M. hapla, and M. chitwoodi was developed. Single juveniles were ruptured in a drop of water and added directly to a PCR reaction mixture in a microcentrifuge tube. Primer annealing sites were located in the 3'' portion of the mitochondrial gene coding for cytochrome oxidase subunit II and in the 16S rRNA gene. Following PCR amplification, fragments of three sizes were detected. The M. incognita and M. javanica reactions produced a 1.7-kb fragment; the M. arenaria reaction, a 1.1-kb fragment; and the M. hapla and M. chitwoodi reactions resulted in a 0.52-kb fragment. Digestion of the amplified product with restriction endonucleases allowed discrimination among species with identically sized amplification products. Dra I digestions of the 0.52-kb amplification product produced a characteristic three-banded pattern in M. chitwoodi, versus a two-banded pattern in M. hapla. Hinf I digestion of the 1.7-kb fragment produced a two-banded pattern in M. javanica, versus a three-banded pattern in M. incognita. Amplification and digestion of DNA from juveniles from single isolates of M. marylandi, M. naasi, and M. nataliei indicated that the diagnostic application of this primer set may extend to less frequently encountered Meloidogyne species.     

A study of sequence homologies in four satellite DNAs of man.

Satellites I, II, III and IV (Corneo et al., 1968,1970,1971) have been purified from human male placental DNA. The sequences present in these four DNA components have been characterized by analytical buoyant density, thermal denaturation, DNA reassociation, DNA hybridization and gel electrophoresis coupled with hybridization following either HaeIII or EcoRI restriction endonuclease digestion. Satellites III and IV were found to be virtually indistinguishable by a variety of criteria. Cross-satellite reassociation showed that 40% of the molecules present in satellite III contain sequences that are homologous to 10% of the molecules of either satellite I or satellite II. Reassociated satellite I melts as a single component, as do the hybrid duplexes between satellite I and satellite III. In contrast, reassociated satellites II, III and IV, and the hybrid duplexes formed between satellites II and III and between satellites II and IV, melt as two distinct components with different thermal stabilities.Digestion of satellite III with HaeIII gives rise to a series of fragments whose sizes are 2, 3, 4, 5, 6, 7, 8 and 11 times the size of the smallest 0.17 × 10³ basepair fragment, in addition to a 3.4 × 10³ base-pair male-specific fragment (Cooke, 1976) and high molecular weight material. The sequences contained in the fragments of the HaeIII ladder are diverged from each other as well as being non-homologous with those of the 3.4 × 10³ base-pair and high molecular weight fragments. The latter contain EcoRI recognition sites. Satellite II has a similar pattern of fragments to satellite III following digestion with HaeIII, although it can be distinguished from satellite III on the basis of the products of EcoRI digestion. Satellite I contains neither HaeIII nor EcoRI recognition sites. The cross-satellite homologies of the sequences present in fragments of differing sizes produced by restriction enzyme digestion have also been studied.     

Insights into the Origin of Clostridiumbotulinum Strains: Evolution of Distinct Restriction Endonuclease Sites in rrs (16S rRNA gene)

Diversity analysis of Clostridium botulinum strains is complicated by high microheterogeneity caused by the presence of 9–22 copies of rrs (16S rRNA gene). The need is to mine genetic markers to identify very closely related strains. Multiple alignments of the nucleotide sequences of the 212 rrs of 13 C. botulinum strains revealed intra- and inter-genomic heterogeneity. Low intragenomic heterogeneity in rrs was evident in strains 230613, Alaska E43, Okra, Eklund 17B, Langeland, 657, Kyoto, BKT015925, and Loch Maree. The most heterogenous rrs sequences were those of C. botulinum strains ATCC 19397, Hall, H04402065, and ATCC 3502. In silico restriction mapping of these rrs sequences was observable with 137 type II Restriction endonucleases (REs). Nucleotide changes (NC) at these RE sites resulted in appearance of distinct and additional sites, and loss in certain others. De novo appearances of RE sites due to NC were recorded at different positions in rrs gene. A nucleotide transition A>G in rrs of C. botulinum Loch Maree and 657 resulted in the generation of 4 and 10 distinct RE sites, respectively. Transitions A>G, G>A, and T>C led to the loss of RE sites. A perusal of the entire NC and in silico RE mapping of rrs of C. botulinum strains provided insights into their evolution. Segregation of strains on the basis of RE digestion patterns of rrs was validated by the cladistic analysis involving six house keeping genes: dnaN, gyrB, metG, prfA, pyrG, and Rho.

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Genetic dissection of retinoid esterification and accumulation in the liver and adipose tissue

Approximately 80–90% of all retinoids in the body are stored as retinyl esters (REs) in the liver. Adipose tissue also contributes significantly to RE storage. The present studies, employing genetic and nutritional interventions, explored factors that are responsible for regulating RE accumulation in the liver and adipose tissue and how these influence levels of retinoic acid (RA) and RA-responsive gene expression. Our data establish that acyl-CoA:retinol acyltransferase (ARAT) activity is not involved in RE synthesis in the liver, even when mice are nutritionally stressed by feeding a 25-fold excess retinol diet or upon ablation of cellular retinol-binding protein type I (CRBPI), which is proposed to limit retinol availability to ARATs. Unlike the liver, where lecithin:retinol acyltransferase (LRAT) is responsible for all RE synthesis, this is not true for adipose tissue where Lrat-deficient mice display significantly elevated RE concentrations. However, when CrbpI is also absent, RE levels resemble wild-type levels, suggesting a role for CrbpI in RE accumulation in adipose tissue. Although expression of several RA-responsive genes is elevated in Lrat-deficient liver, employing a sensitive liquid chromatography tandem mass spectrometry protocol and contrary to what has been assumed for many years, we did not detect elevated concentrations of all-trans-RA. The elevated RA-responsive gene expression was associated with elevated hepatic triglyceride levels and decreased expression of Pparδ and its downstream Pdk4 target, suggesting a role for RA in these processes in vivo.     

Molecular Polymorphism and Morphometrics of Species of the Heterodera avenae Group in Syria and Turkey

Molecular characterization of the three most common cereal cyst nematode species of the Heterodera avenae group (H. avenae, H. filipjevi, and H. latipons), originating from various locations in major cereal-cultivating areas in Syria and Turkey, showed distinct restriction fragment patterns of the ITS-rDNA following PCR amplification and RFLP digestion with four endonucleases (Hae III, Hinf I, Ita I, and Pst I). Genetic dissimilarity within H. avenae group populations increased in comparison with H. avenae and other species; it was 0.164 with H. filipjevi and 0.354 with H. latipons populations. No intraspecific polymorphism was observed within H. latipons or H. filipjevi populations. Principal component analysis revealed contrasted correlations among 12 morphological parameters of cysts and juveniles of the three Heterodera species that separated them and distinguished differences within populations of H. latipons. Our results showed a clear separation of the three cyst nematode species on cereal using a conventional method for classification and molecular tests, and confirmed the congruence between genetics and morphological traits.     

Species-specific polymorphisms in transcribed ribosomal DNA of fivePythium species

Twenty-five isolates representing fivePythium species collected from diverse hosts and geographic origins were evaluated using polymerase chain reaction and restriction fragment length polymorphism (PCR-RFLP) analysis. DNA regions coding for the small-subunit ribosomal RNA (SrDNA) and the internal transcribed spacer (ITS) were amplified and analyzed by restriction enzyme digestion. The amplified SrDNA was about 1800 bp long and uniform in length among the five species. However, restriction digestion revealed three polymorphic groups. They areP. arrhenomanes andP. graminicola,P. irregulare andP. spinosum, andP. ultimum. The amplified-ITS region showed three different lengths which corresponded to the three polymorphic groups of SrDNA. Each length variant of the ITS showed distinct banding patterns after restriction enzyme digestion. In addition,P. irregulare andP. spinosum each showed distinct banding patterns after digestion with enzymesHinfI andMboI. Physical maps of the restriction sites in the SrDNA and the ITS were determined. Length variation occurred primarily in the spacer between the SrDNA and 5.8 S rDNA; although, it also was detected in the ITS-2 region. Little intraspecific variation was observed in the SrDNA and ITS, and species could be reliably distinguished by RFLP analysis of the amplified rDNA regions. Data presented do not support the maintenance ofP. arrhenomanes andP. graminicola as distinct species. Results indicate that PCR-RFLP can be used as a simple and speedy taxonomical tool for ecological studies ofPythium species.     

Rapid Detection and Identification of Six Tomato yellow leaf curl virus Isolates from Different Regions Using Polymerase Chain Reaction and Restriction Enzyme Analysis

The combinational analysis of polymerase chain reaction and restriction enzyme analysis (PCR‐RE) to distinguish six Tomato yellow leaf curl virus (TYLCV) isolates from five countries was developed. Tomato yellow leaf curl virus has spread from the Middle East to Western Europe, Central America and Eastern Asia, and occurs on infected crops such as tomatoes, peppers, cucurbits and beans. Tomato yellow leaf curl virus isolates from Jordan (TYLCV‐Mld[Jo:Cuc] and TYLCV‐IL[Jo:Cuc]), Israel (TYLCV‐IL[IL:Reo:86]), Spain (TYLCV‐Mld[ES72/97]), USA (TYLCV‐IL[US:F10:04]) and Korea (TYLCV‐KR) were collected, and the sequences of the six isolates were analysed to distinguish them by PCR‐RE combination analysis. Oligonucleotide primers for the six TYLCV isolates were designed to amplify approximately 740 base pairs including the intergenic region (IR) and parts of V1 and V2 ORF. Unique restriction enzyme sites were analysed to identify isolate‐specific restriction enzyme sites on the PCR products of each isolate. Three enzymes (DdeI, FauI and BssSI) were selected by in silico analysis, and then, the PCR products following the serial digestion of each restriction enzyme were separated by agarose gel electrophoresis to distinguish the TYLCV isolates. Taken together, the PCR‐RE combination analysis by serial digestion with three restriction enzymes could be a useful method for distinguishing the six isolates.     

Discrimination of the common macroalgae (Ulva and Blidingia) in coastal waters of Yellow Sea,northern China,based on restriction fragment-length polymorphism (RFLP) analysis

Since 2007, reoccurring large-scale green algae blooms have caused deleterious effects to the estuarine ecosystem of Yellow Sea, northern China and subsequent economical losses. Previous surveys indicated the green tides were initiated in the coastal water of southern Jiangsu province where Porphyra farming was intensively conducted; however, the main ‘seed source’ of floating green algae is still under debate. Ulva prolifera was confirmed to be the major causative species of green tides. The multiple sympatric ulvoid species in the natural environment has complicated species identification in both field surveys and laboratory studies due to their morphological plasticity. Thus, we developed a genetic identification key based on restriction fragment length polymorphism (RFLP) analysis of the ITS nuclear marker to discriminate the common Ulva and Blidingia species in the Yellow Sea. Ten genetic lineages (1 in Blidingia, 9 in Ulva) were detected along the coast of China through phylogenetic analysis of ITS sequences. They can be separated by virtual restriction digestion using the four selected restriction enzymes (BspT107 I, EcoO109 I, Hin1 I and VpaK11B I). With additional PCR amplification of the 5S spacer region, we were able to discriminate U. prolifera from Ulva linza. Using this genetic key, we screened macroalgal samples collected from the coast of the Yellow Sea, and the results indicated 6 common lineages (U. prolifera, U. linza, Ulva compressa, Ulva pertusa, Clade 6 and Blidingia sp.) in this region, which could be explicitly distinguished by a single enzyme (BspT107 I) coupled with 5S spacer polymorphism. U. prolifera was confirmed to be present on the Porphyra aquaculture rafts with seasonal variation in the species composition. This genetic key will facilitate our long-term field surveys to investigate the origin of the floating U. prolifera and furthermore to explore its bloom dynamics along the coast of the Yellow Sea. It also provided a framework for the future inclusion of more Ulva species, which will expand the usage of this key.     

Engineering Pseudomonas fluorescens for Biodegradation of 2,4-Dinitrotoluene

Using the genes encoding the 2,4-dinitrotoluene degradation pathway enzymes, the nonpathogenic psychrotolerant rhizobacterium Pseudomonas fluorescens ATCC 17400 was genetically modified for degradation of this priority pollutant. First, a recombinant strain designated MP was constructed by conjugative transfer from Burkholderia sp. strain DNT of the pJS1 megaplasmid, which contains the dnt genes for 2,4-dinitrotoluene degradation. This strain was able to grow on 2,4-dinitrotoluene as the sole source of carbon, nitrogen, and energy at levels equivalent to those of Burkholderia sp. strain DNT. Nevertheless, loss of the 2,4-dinitrotoluene degradative phenotype was observed for strains carrying pJS1. The introduction of dnt genes into the P.fluorescens ATCC 17400 chromosome, using a suicide chromosomal integration Tn5-based delivery plasmid system, generated a degrading strain that was stable for a long time, which was designated RE. This strain was able to use 2,4-dinitrotoluene as a sole nitrogen source and to completely degrade this compound as a cosubstrate. Furthermore, P. fluorescens RE, but not Burkholderia sp. strain DNT, was capable of degrading 2,4-dinitrotoluene at temperatures as low as 10°C. Finally, the presence of P. fluorescens RE in soils containing levels of 2,4-dinitrotoluene lethal to plants significantly decreased the toxic effects of this nitro compound on Arabidopsis thaliana growth. Using synthetic medium culture, P. fluorescens RE was found to be nontoxic for A.thaliana and Nicotiana tabacum, whereas under these conditions Burkholderia sp. strain DNT inhibited A.thaliana seed germination and was lethal to plants. These features reinforce the advantageous environmental robustness of P. fluorescens RE compared with Burkholderia sp. strain DNT.     

Grasshoppers and bushcrickets regionally extinct in the Czech Republic: consequence of the disappearance of habitats scattered on the edge of their ranges

According to the International Union for the Conservation of Nature, taxa extinct within a region but extant in other parts of the world should be classified as Regionally Extinct (RE). A taxon is designated RE when there is no reasonable doubt that the last individual capable of reproduction within a region has died or disappeared. A taxon can also be designated RE if it previously but no longer visited a particular region. The species Arcyptera fusca, Arcyptera microptera, Celes variabilis, Gampsocleis glabra, Locusta migratoria, Oedaleus decorus, and Stenobothrus rubicundulus had previously been found in only a small number of localities in the Czech Republic. We studied localities in the Czech Republic where they had been been previously reported but where their occurences had not been recently confirmed; the last specimens were observed in the 1940, 1960, or 1970s. All these species occurred at Czech localities representing borderline areas for such sub-Mediterranean and mountainous (Carpathian) species. The localities therefore had not offered optimal conditions for these insects, and the suitable biotopes were also scattered and isolated from each other. In most cases, these biotopes had disappeared due to change in management (either to natural or artificial forestation). Although certain of these species are excellent flyers (especially O. decorus), the known recent localities are separated by hundreds of kilometers. Based on our failure to find these species after extensive attempts, we conclude that discussed species should be considered regionally extinct in the Czech Republic. These species are of particularly vulnerable vegetation structures. The loss of these species indicate urgency for assessing status of co-occuring taxa.