Comprehensive Structural Analysis of the Genome of Red Clover (Trifolium pratense L.)

With the aim of establishing the basic knowledge and resourcesneeded for applied genetics, we investigated the genome structureof red clover Trifolium pratense L. by a combination of cytological,genomic and genetic approaches. The deduced genome size was440 Mb, as estimated by measuring the nuclear DNA content byflow cytometry. Seven chromosomes could be distinguished bymicroscopic observation of DAPI stained prometaphase chromosomesand fluorescence in situ hybridization using 28S and 5S rDNAprobes and bacterial artificial chromosome probes containingmicrosatellite markers with known positions on a genetic linkagemap. The average GC content of the genomes of chloroplast, mitochondrionand nucleus were shown to be 33.8, 42.9 and 34.2%, respectively,by the analysis of 1.4 Mb of random genomic sequences. A totalof 26 356 expressed sequence tags (ESTs) that were grouped into9339 non-redundant sequences were collected, and 78% of theESTs showed sequence similarity to registered genes, mainlyof Arabidopsis thaliana and rice. To facilitate basic and appliedgenetics in red clover, we generated a high-density geneticlinkage map with gene-associated microsatellite markers. A totalof 7159 primer pairs were designed to amplify simple sequencerepeats (SSRs) identified in four different types of libraries.Based on sequence similarity, 82% of the SSRs were likely tobe associated with genes. Polymorphism was examined using twoparent plants, HR and R130, and 10 F₁ progeny by agarose gelelectrophoresis, followed by genotyping for the primer pairsshowing polymorphisms using 188 F₁ plants from the mapping population.The selected 1305 microsatellite markers as well as the previouslydeveloped 167 restriction fragment length polymorphism markerswere subjected to linkage analysis. A total of 1434 loci detectedby 1399 markers were successfully mapped onto seven linkagegroups totaling 868.7 cM in length; 405 loci (28%) were bi-parental,611 (43%) were specific to HR and 418 (29%) were specific toR130. Each genetic linkage group was linked to a correspondingchromosome by FISH analysis using seven microsatellite markersspecific to each of the linkage groups as probes. Transferabilityof the developed microsatellite markers to other germplasmswas confirmed by testing 268 selected markers on 88 red clovergermplasms. Macrosynteny at the segmental level was observedbetween the genomes of red clover and two model legumes, Lotusjaponicus and Medicago truncatula, strongly suggesting thatthe genome information for the model legumes is transferableto red clover for genetic investigations and experimental breeding.     

Methylation profiles of genes utilizing newly developed CpG island methylation microarray on colorectal cancer patients

Aberrant methylation of DNA has been shown to play an important role in a variety of human cancers, developmental disorders and aging. Hence, aberrant methylation patterns in genes can be a molecular marker for such conditions. Therefore, a reliable but uncomplicated method to detect DNA methylation is preferred, not merely for research purposes but for daily clinical practice. To achieve these aims, we have established a precise system to identify DNA methylation patterns based on an oligonucleotide microarray technology. Our microarray method has an advantage over conventional methods and is unique because it allows the precise measurement of the methylation patterns within a target region. Our simple signal detection system depends on using an avidin–biotinylated peroxidase complex and does not require an expensive laser scanner or hazardous radioisotope. In this study, we applied our technique to detect promoter methylation status of O⁶-methylguanine-DNA methyltransferase (MGMT) gene. Our easy-handling technology provided reproducible and precise measurement of methylated CpGs in MGMT promoter and, thus, our method may bring about a potential evolution in the handling of a variety of high-throughput DNA methylation analyses for clinical purposes.     

Discovery of a second form of tripartite complex containing gH-gL of human herpesvirus 6 and observations on CD46

The human herpesvirus 6 (HHV-6) glycoprotein H (gH)-glycoprotein L (gL) complex associates with glycoprotein Q (gQ) (Y. Mori, P. Akkapaiboon, X. Yang, and K. Yamanishi, J. Virol. 77:2452-2458, 2003), and the gH-gL-gQ complex interacts with human CD46 (Y. Mori, X. Yang, P. Akkapaiboon, T. Okuno, and K. Yamanishi, J. Virol. 77:4992-4999, 2003). Here, we show that the HHV-6 U47 gene, which is a positional homolog of the human cytomegalovirus glycoprotein O (gO) gene, encodes a third component of the HHV-6 gH-gL-containing envelope complex. A monoclonal antibody (MAb) against the amino terminus of HHV-6 gO reacted in immunoblots with protein species migrating at 120 to 130 kDa and 74 to 80 kDa in lysates of HHV-6-infected cells and with a 74- to 80-kDa protein species in purified virions. The 80-kDa form of gO was coimmunoprecipitated with an anti-gH MAb, but an anti-gQ MAb, which coimmunoprecipitated gH, did not coprecipitate gO. Furthermore, the gH-gL-gO complex did not bind to human CD46, indicating that the complex was not a ligand for CD46. These findings suggested that the viral envelope contains at least two kinds of tripartite complexes, gH-gL-gQ and gH-gL-gO, and that the gH-gL-gO complex may play a role different from that of gH-gL-gQ during viral infection. This is the first report of two kinds of gH-gL complexes on the viral envelope in a member of the herpesvirus family.     

Nitrite/Nitrate (NO<Subscript><Emphasis Type="Italic">x</Emphasis></Subscript>) and Zinc Concentrations in Influenza-associated Encephalopathy in Children with Different Sequela

NOx (NO₂ and NO₃) in CSF obtained from 22 patients with influenza-associated encephalopathy were higher than those of a control group. Within the different prognosis, there were no significant differences in NO_x levels. By analyzing the serum obtained from patients infected with influenza, including encephalopathy, with others, the serum zinc levels did show marked differences between them. Four out of eleven patients with influenza-associated encephalopathy showed low zinc levels below the normal range. However, there were no significant differences in the zinc levels between the group with sequela and without sequela. These results indicate that the increase of NO_x levels detected in influenza-associated encephalopathy relates to the low zinc levels, and both low molecules might play an important role for the cause of encephalopathy.     

Asarum yentuense sp. nov. (Aristolochiaceae) from Vietnam

A new species, Asarum yentuense N. Tuan & Sasamoto (Aristolochiaceae), is described from Quang Ninh Province, Vietnam. This species belongs to A. subgen. Heterotropa sect. Longistylis and is most similar to Asarum petelotii, A. glabrum, A. reticulatum and A. magnificum var. dinghuense, but is differentiated by morphology, including the length of the calyx tube and lobes, and phenology.     

Effect of sitagliptin on blood glucose control in patients with type 2 diabetes mellitus who are treatment naive or poorly responsive to existing antidiabetic drugs: the JAMP study

Background

To investigate the ameliorating effect of sitagliptin, a dipeptidyl peptidase-4 inhibitor, on blood glucose control in patients with type 2 diabetes mellitus who were previously untreated with or who have a poor responsive to existing antidiabetic drugs.

Methods

Sitagliptin (50 mg/day) was added on to the pre-existing therapy for type 2 diabetes and changes in the glycated hemoglobin (HbA1c) level after 3 months of treatment were compared with the baseline and performed exploratory analysis.

Results

HbA1c levels were significantly decreased after 1 month of treatment compared to baseline, with a mean change in HbA1c level from baseline of ?0.73% (range, ?0.80 to ?0.67) in the entire study population at 3 months. Patients who received a medium dose of glimepiride showed the least improvement in HbA1c levels. The percentage of patients who achieved an HbA1c level of <7.0% significantly increased after 1 month of treatment, reaching 53.1% at 3 months. The percentage of patients who achieved a fasting blood glucose level of <130 mg/dL significantly increased after 1 month of treatment, reaching 50.9% at 3 months.

Conclusions

Sitagliptin improved the HbA1c level and rate of achieving the target control levels in patients with type 2 diabetes mellitus who were previously untreated with, or poorly responsive to, existing antidiabetic drugs. Thus, sitagliptin is expected to be useful in this patient group. However, the additional administration of sitagliptin in patients treated with medium-dose glimepiride only slightly improved blood glucose control when corrected for baseline HbA1c level.

     

Cell Wall Architecture Prerequisite for the Cell Division in the Protoplasts of White Poplar, Populus alba L.

White poplar (Populus alba L.) protoplasts were investigatedat 0, 3,10, 20 and 30 d after regeneration to visualize thecell wall architecture prerequisite for cell division. The 10day-old cells just before cell division developed a thin walllayer with uneven deposition of cell wall materials and weresaved from bursting by suspension in low osmotic medium. Thethree dimensional architecture of the cell wall, as revealedby rapid-freezing and deep-etching electron microscopy, in 10day-old cells, constituted thin innermost lamellae on the plasmamembrane along with highly extended micronbrillar networks.These results suggest that the deposition of thin lamellae isimportant not only for cells to withstand bursting but alsoto induce cell division. The present investigations give thefirst account of the visualization of the three-dimensionalarchitecture of regenerated cell wall right before cell division. (Received July 31, 1997; Accepted April 6, 1998)     

Complete Genome Sequence of the Wild-Type Commensal Escherichia coli Strain SE15, Belonging to Phylogenetic Group B2

Escherichia coli SE15 (O150:H5) is a human commensal bacterium recently isolated from feces of a healthy adult and classified into E. coli phylogenetic group B2, which includes the majority of extraintestinal pathogenic E. coli. Here, we report the finished and annotated genome sequence of this organism.The complete genome sequence of Escherichia coli SE15 was determined using a combination of 2-kb and 40-kb Sanger libraries and 454 pyrosequencing. We generated 57,600 sequences (ABI 3730xl sequencers) and three sequencing runs (GS20 sequencers). The 454 pyrosequencing reads were first assembled using the Newbler assembler software (4). A hybrid assembly of 454 and Sanger reads was performed using the Phred-Phrap-Consed program (1). Remaining gaps between contigs were closed by direct sequencing of clones. Prediction and annotation of protein-coding genes were performed as described previously (6).The genome of E. coli SE15 consists of a circular 4,717,338-bp chromosome containing 4,338 predicted protein-coding genes and a 122-kb plasmid (pSE15) encoding 150 protein-coding genes. From the multilocus sequence typing analysis based on the nucleotide sequences of seven housekeeping genes (adk, fumC, gyrB, icd, mdh, purA, and recA), SE15 was found to belong to E. coli reference collection group B2. In the chromosome, two prophage regions and seven integrative elements are found. Of the predicted protein-coding genes, we could assign 2,883 (64%) to known functions, 1,528 (34%) as conserved hypothetical genes and 77 (2%) as novel hypothetical genes. Of the predicted protein-coding genes on the chromosome, 3,735 (86%) are common to three uropathogenic E. coli (UPEC) genomes (CFT073, UTI89, and 536) and 263 (6%) are not identified in any of the three UPEC genomes. The 263 genes include 7 genes for the phosphoenolpyruvate:sugar phosphotransferase system involved in the uptake of carbohydrates, reflecting the adaptation of SE15 to a commensal lifestyle in the intestinal tract. pSE15 shares 121 genes (81%) with a 114-kb plasmid (GenBank accession no. {"type":"entrez-nucleotide","attrs":{"text":"CP000244","term_id":"91075696","term_text":"CP000244"}}CP000244) of UPEC UTI89, indicating that both plasmids are derived from the same origin.The chromosome contains six large segments (LSs; >30 kb) designated LSs I to VI, three of which overlap one prophage region and two integrative elements. Each of the six LSs is located at the same locus as at least one of the pathogenicity islands (PAIs) or other insertion regions in the three UPEC genomes. LS II (ECSF_1824 to ECSF_1835) and three PAIs (PAI IV_UTI89, PAI IV₅₃₆, and HPI_CFT073) are located at the same loci in each chromosome and share the ybt operon encoding the yersiniabactin iron acquisition system, indicating that the ancestral E. coli of group B2 strains may have acquired the ybt genes. LS III (ECSF_1852 to ECSF_1897), PAI VI_UTI89, PAI VI₅₃₆, and PAI_CFT073-asnW are located at the same loci in each chromosome. The three PAIs contain the pks island encoding multiple nonribosomal peptide synthases and polyketide synthases, whereas LS III in SE15 completely lacks the pks island. The commensal E. coli strain ED1a also lacks the pks island (8), but the commensal E. coli strain Nissle 1917 has the pks island (5). These data suggest that the presence of the pks island may not be common among intestinal commensal strains in group B2. LS V (ECSF_2770 to ECSF_2794) is almost identical to PAI V_UTI89, which contains the genes cluster for a type II secretion system (gsp), group II capsule synthesis (kps), and polysialic acid synthesis (neu). The neu operon between the kpsFEDUCS and kpsMT genes in PAI V_UTI89 is responsible for K1 capsule biosynthesis, and this region between the kpsFEDUCS and kpsMT genes is highly variable in E. coli (9). The corresponding region (ECSF_2777 to ECSF_2781) in LS V encodes genes different from those in the neu operon in PAI V_UTI89; differs from the corresponding regions of the CFT073 (K2 serotype), 536 (K15 serotype), and APEC O1 (K1 serotype) strains; and shows no homology with any sequence in public databases.SE15 lacks many virulence-related genes, whereas UPEC encodes virulence-related factors, including fimbrial adhesins, toxins, capsule, and serum resistance and iron uptake systems. The three UPEC strains have the genes encoding P fimbriae (pap), S fimbriae (sfa/foc), Auf fimbriae (auf), and type 1 fimbriae (fim), whereas SE15 contains only the fim genes and lacked the pap, sfa/foc, and auf genes. Amino acid replacements in FimH located at the tip of type 1 fimbriae produce a shift from a commensal-associated trimannose binding phenotype to a urinary tract infection-associated monomannose binding phenotype (7). The other sequenced B2 strains (three UPEC strains, APEC O1, LF82, and ED1a) have Ser-70 and Asn-78 residues in FimH, whereas SE15 has Asn-70 and Ser-78 residues that are conserved in intestinal E. coli strains. Of the seven chaperon-usher fimbrial operons in SE15, six (fim, yad, yde, yeh, yfc, and yqi) are conserved in the three UPEC genomes. The one remaining fimbrial operon (ECSF_0163 to ECSF_0166) is specific to SE15. The GC content (42%) of this 5-kb fimbrial region is lower than the average GC content (51%) of the chromosome. UPEC strains contain a greater number of iron acquisition systems than do commensal strains, which may be a consequence of their adaptation to the iron-limiting urinary tract environment (3). SE15 also contains iron uptake system genes encoding siderophore enterobactin, siderophore yersiniabactin, iron transporter (sit), and heme (chu) systems but lacks genes for siderophore salmochelin, siderophore aerobactin, and novel siderophore (ireA), which are encoded by PAIs of UPEC strains. Furthermore, SE15 lacks genes encoding alpha-hemolysin and cytotoxic necrotizing factor, which are known toxins encoded by PAIs of UPEC strains.It has been pointed out that extraintestinal pathogenic E. coli (ExPEC) virulence factors identified in commensal strains of group B2 may facilitate colonization of the human gut and thus act as fitness factors for commensal E. coli stains (2). SE15 contains fewer known ExPEC virulence-associated genes than other known commensal strains (ED1a and Nissle 1917) in group B2, suggesting that ExPEC virulence-related genes in the SE15 genome may be necessary for this commensal microorganism to colonize the human gut.     

Characterization of active miniature inverted-repeat transposable elements in the peanut genome

Miniature inverted-repeat transposable elements (MITEs), some of which are known as active non-autonomous DNA transposons, are found in the genomes of plants and animals. In peanut (Arachis hypogaea), AhMITE1 has been identified in a gene for fatty-acid desaturase, and possessed excision activity. However, the AhMITE1 distribution and frequency of excision have not been determined for the peanut genome. In order to characterize AhMITE1s, their genomic diversity and transposition ability was investigated. Southern blot analysis indicated high AhMITE1 copy number in the genomes of A. hypogaea, A. magna and A. monticola, but not in A. duranensis. A total of 504 AhMITE1s were identified from the MITE-enriched genomic libraries of A. hypogaea. The representative AhMITE1s exhibited a mean length of 205.5 bp and a GC content of 30.1%, with AT-rich, 9 bp target site duplications and 25 bp terminal inverted repeats. PCR analyses were performed using primer pairs designed against both flanking sequences of each AhMITE1. These analyses detected polymorphisms at 169 out of 411 insertional loci in the four peanut lines. In subsequent analyses of 60 gamma-irradiated mutant lines, four AhMITE1 excisions showed footprint mutations at the 109 loci tested. This study characterizes AhMITE1s in peanut and discusses their use as DNA markers and mutagens for the genetics, genomics and breeding of peanut and its relatives.     

The existence of two completely distinct antigenic sites within a decapeptide.

A decapeptide (1182-1191) derived from the bovine interphotoreceptor retinoid-binding protein (IRBP) was found to contain two completely distinct antigenic sites when tested in Lewis rats. One site, localized in sequence 1182-1191, is the core of the immunodominant and highly uveitogenic determinant of IRBP. The second site localizes within sequence 1183-1191 and becomes detectable only when tryptophan at position 1182 is deleted. Lymphocytes sensitized against the first, larger site recognized all longer peptides within sequence 1169-1191, as well as whole IRBP. In contrast, lymphocytes sensitized against the second, short epitope recognized only two peptides, 1184-1191 and (to a lesser degree) 1183-1191. The responses to both sites were restricted by the same major histocompatibility complex (MHC) product (I-A), as shown by monoclonal antibody blocking and by the finding that the lymphocyte response to 1184-1191 was competitively inhibited by peptide 1181-1191. The unique finding of two completely distinct antigenic sites within a decapeptide could be explained by the hypothesis that peptides of the two sites combine with the MHC molecule on antigen-presenting cells by different configurations, thus forming two distinct antigenicities.