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Query: UMLS:C0039483 (
giant cell arteritis
)
3,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ancestral gene for immunoglobulin light-chain variable regions (Ig VLs) of the kappa as well as the lambda class apparently arose from about 12 tandem repeats of the 48-base-long primordial building block sequence TCT-TGC-
GCA
-GTA-
AGT
-CCA-CTC-CAG-GTC-ATA-TCC-
AGT
-CAG-GCT-GCT-GAA. Even today, amino acid residues 67 to 82 of each Ig V kappa L are still specified by a direct descendant in toto of the above-noted primordial building block, whereas amino acid residues 14 to 25 are invariably specified by its truncated copy. The Ig VL primordial building block presently identified is 100% complementary to the Ig VH (heavy-chain variable region) primordial building block previously identified. In the recognition of specific antigenic determinants by antibodies, Ig VL and Ig VH of light-chain--heavy-chain dimers have to complement each other. It is perhaps fitting that the primordial building blocks of the two are represented by the complementary strands of the same 48-base-pair-long DNA sequence.
...
PMID:The 48-base-long primordial building block of immunoglobulin light-chain variable regions is complementary to the primordial building block of heavy-chain variable regions. 680 18
We have found a 33 bp minisatellite repeat in the 5'-flanking region of the mutated in colon cancer (MCC) gene at chromosome 5q21. Southern blot experiments demonstrated the locus specificity of the repeat. The number of repeat units varied between 5 and 11 with a heterozygosity of 0.56. The sequence 5'-AGG
AGT
GTG AAT GGG
GCA
TAG TGA ATG AGG GGA-3' of the repeat units does not match the consensus sequence of chi-related minisatellites. The minisatellite is not expressed as part of a gene transcription unit. However, it can be used as a tool for the detection of allelic changes at chromosome 5q21 on standard agarose gels.
...
PMID:A 33 bp minisatellite repeat upstream of the 'mutated in colon cancer' gene at chromosome 5q21. 969 82
The cerebellar medulloblastoma (WHO Grade IV) is a highly malignant, invasive embryonal tumor with preferential manifestation in children. Several molecular alterations appear to be involved, including isochromosome 17q and the p53, PTCH, and beta-catenin gene mutations. In this study, 46 sporadic medulloblastomas were screened for the presence of mutations in genes of the Wnt signaling pathway (APC and beta-catenin). Single-strand conformational polymorphism (SSCP) analysis followed by direct DNA sequencing revealed 3 miscoding APC mutations in 2 (4.3%) medulloblastomas. One case contained a
GCA
-->GTA mutation at codon 1296 (Ala-->Val), and another case had double point mutations at codons 1472 (GTA-->ATA, Val-->Ile) and 1495 (
AGT
-->GGT, Ser-->Gly). Miscoding beta-catenin mutations were detected in 4 tumors (8.7%). Three of these were located at codon 33 (TCT -->TTT, Ser-->Phe) and another at codon 37 (TCT-->GCT, Ser-->Ala). Adenomatous polyposis coli (APC) gene and beta-catenin mutations were mutually exclusive and occurred in a total of 6 of 46 cases (13%). Although germline APC mutations are a well established cause of familial colon and brain tumors (Turcot syndrome), this study provides the first evidence that APC mutations are also operative in a subset of sporadic medulloblastomas.
...
PMID:APC mutations in sporadic medulloblastomas. 1066 72
We report on the use of PDMS multichannels for affinity studies of DNA aptamer-human Immunoglobulin E (IgE) interactions by surface plasmon resonance imaging (SPRi). The sensing surface was prepared with thiol-terminated aptamers through a self-assembling process in the PDMS channels defined on a gold substrate. Cysteamine was codeposited with the thiol aptamers to promote proper spatial arrangement of the aptamers and thus maintain their optimal binding efficiencies. Four aptamers with different nucleic acid sequences were studied to test their interaction affinity toward IgE, and the results confirmed that aptamer I (5'-SH-GGG
GCA
CGT TTA TCC GTC CCT CCT
AGT
GGC GTG CCC C-3') has the strongest binding affinity. Control experiments were conducted with a PEG-functionalized surface and IgG was used to replace IgE in order to verify the selective binding of aptamer I to the IgE molecules. A linear concentration-dependent relationship between IgE and aptamer I was obtained, and a 2-nM detection limit was achieved. SPRi data were further analyzed by global fitting, and the dissociation constant of aptamer I-IgE complex was found to be 2.7 x 10(-7) M, which agrees relatively well with the values reported in the literature. Aptamer affinity screening by SPR imaging demonstrates marked advantages over competing methods because it does not require labeling, can be used in real-time, and is potentially high-throughput. The ability to provide both qualitative and quantitative results on a multichannel chip further establishes SPRi as a powerful tool for the study of biological interactions in a multiplexed format.
...
PMID:Surface plasmon resonance imaging for affinity analysis of aptamer-protein interactions with PDMS microfluidic chips. 1767 82
Prevalence of Anaplasma, Ehrlichia, Neorickettsia, and Wolbachia DNA in blood of 479 cats collected in different veterinary clinics in Southern Germany was determined using a previously published conventional PCR using 16S-23S intergenic spacer primers (5' CTG GGG ACT ACG GTC
GCA
AGA C 3' - forward; 5' CTC CAG TTT ATC ACT GGA
AGT
T 3' - reverse). Purified amplicons were sequenced to confirm genus and species. Associations between rickettsial infections, and feline immunodeficiency virus (FIV), as well as feline leukemia virus (FeLV) status were evaluated. Rickettsial prevalence was 0.4% (2/479; CI: 0.01-1.62%). In the two infected cats, Anaplasma phagocytophilum DNA was amplified. These cats came from different environment and had outdoor access. Both were ill with many of their problems likely related to other diseases. However, one cat had neutrophilia with left shift and the other thrombocytopenia potentially caused by their A. phagocytophilum infection. There was no significant difference in the FIV and FeLV status between A. phagocytophilum-negative and -positive cats. A. phagocytophilum can cause infection in cats in Southern Germany, and appropriate tick control is recommended.
...
PMID:Prevalence of selected rickettsial infections in cats in Southern Germany. 2638 62
Tomato is a food crop of economic importance in Mauritius. It is grown in open fields and in greenhouses by more than 4,500 small- and large-scale growers throughout the island. Open-field tomatoes are mostly a cooking type, while those produced in greenhouses are salad types. Acreage under production is approximately 900 ha with an annual production of approximately 11,500 tons. In September 2009, plants with reduced leaf size, leaf curling, and yellow margins associated with plant dwarfism were observed in open-field tomato crops in the southern part of the island. Whitefly populations were observed in these fields. These symptoms were suggestive of infection with a leaf curl-causing begomovirus such as Tomato yellow leaf curl virus (TYLCV) (family Geminiviridae, genus Begomovirus). Similar symptoms caused by TYLCV were reported in neighboring Reunion Island in 1997 (1). In October 2009, 3.15 ha of tomato were surveyed in the south at la Flora, Camp diable, L'escalier, Plein Bois, and Plaine Magnien to monitor the disease. Symptomatic plants were observed in all areas surveyed and disease incidence ranged from 5 to 50%. The disease was more prevalent in tomato 'Swaraksha' and 'Epoch', which are widely cultivated. Seventeen symptomatic leaf samples from La flora, Camp Diable, L'escalier, Plein Bois, and Plaine Magnien areas were collected for begomovirus detection by PCR. Total DNA was extracted and tested using AV494 (5'-GCC YAT RTA YAG RAA GCC MAG-3') and AC1048 (5'-GGR TTD GAR
GCA
TGH GTA CAT G-3') primers from the core region of the coat protein that detect most begomoviruses (2). Seventeen of 17 samples (100%) gave an amplicon of expected size. PCR amplicons from selected samples were cloned and sequenced. The consensus sequence was assembled, and the sequence (GenBank Accession no. HM448447) had 100% identity with nucleotides 458 to 1,036 of the Almeria isolate (GenBank Accession no. AJ489258), an isolate from the Netherlands (FJ439569), Morocco (EF060196), and Spain (AJ519441), and nucleotides 451 to 1,029 of the RE4 isolate from Reunion Island (AM409201). On the basis of the initial sequence obtained, specific primers (RM-TYLCV 583C: 5'-CCA CGA GTA ACA TCA CTA ACA-3' and RM-TYLCV 895F: 5'-GGA ACA GGC ATT
AGT
TAA GAG-3') were designed to amplify the remainder of the genomic sequence by PCR followed by cloning and sequencing of the amplicons. At least three clones were sequenced to arrive at the consensus sequence. Sequence comparisons showed that the TYLCV isolate from Mauritius had the greatest sequence identity (95 to 100%) with the above isolates. To our knowledge, this is the first report of TYLCV in tomato in Mauritius. In view of the economic importance of leaf curl disease in tomato in many parts of the world, an island-wide survey needs to be carried out to monitor the disease and assess its impact on tomato production. References: (1) M. Peterschmitt et al. Plant Dis. 83:303, 1999. (2) S. D. Wyatt and J. K. Brown. Phytopathology 86:1288, 1996.
...
PMID:First Report of Tomato yellow leaf curl virus in Tomato in Mauritius. 3074 98
Garlic (Allium sativum L.) is one of the most important Allium spp. plants that are widely cultivated throughout the world. A significant reduction in yield and quality due to virus infection is now a serious economic problem (1). In many cases, garlic plants are infected with a variety of viruses, but elimination of these viruses is difficult because this crop is propagated through bulbs. Potyviruses, carlaviruses, and allexiviruses have been detected in diseased garlic. Onion yellow dwarf virus (OYDV) and Leek Yellow Stripe Virus (LYSV), genus Potyvirus, family Potyviridae, are two important viral pathogens of garlic. Virus diseases of garlic are widespread in the world, causing serious damage to yields and quality of the crop. The East Mediterranean Region produces 14% of the garlic production of Turkey (110,000 t). A survey was done in garlic fields in Adana, Mersin, Kahramanmaras, Hatay, and Gaziantep provinces of Turkey where virus-like symptoms were noted in samples collected during the 2007-2008 growing season. Leaf and bulb samples were taken from 202 plants with leaf yellow stripe, mosaic, enations, and deformation or dwarfism symptoms. ELISA was performed with antibodies from Agdia (Elkhart, IN). Results indicated that 57 samples (28.2%) were infected with OYDV and 43 samples (21.2%) were infected with LYSV. In addition, 23 samples were determined to be infected by both viruses. All ELISA-positive samples and 10 ELISA-negative samples were analyzed by reverse transcription-PCR with primers 1OYDV-G (5' TTA CAT TCT AAT ACC AAG CA 3') and 2OYDV-G (5'
GCA
GGA GAT GGG GAG GAC GC 3') for the detection of OYDV and primers 1LYSV (5' TCA CTG CAT ATG CGC ACC AT 3') and 2LYSV (5'
GCA
CCA TAC
AGT
GAA TTG AG 3') for the detection of LYSV. These primers were previously reported to be specific for the coat protein genes of OYDV and LYSV, respectively (2). Products of the expected size (774 bp for OYDV and 1,020 bp for LYSV) were amplified only from the ELISA-positive samples of the respective viruses, confirming infections by OYDV and LYSV. To our knowledge, this is the first report of OYDV and LYSV in garlic in Turkey. References: (1) L. Bos et al. Neth. J. Plant Pathol. 84:185, 1978. (2) T. V. M. Fajardo et al. Fitopatol. Bras. 26:619, 2001.
...
PMID:First Report of Onion yellow dwarf virus and Leek yellow stripe virus in Garlic in Turkey. 3076 28
Viruses are a major biotic constraint on sweet potato (Ipomoea batatas (L.) Lam) production worldwide. In 2005, 10 to 60% viral disease incidence was observed in sweet potato fields. Symptoms include ring and chlorotic spots, puckering, feathering, vein clearing, and leaf curl with chlorotic specks and pink spots. Cuttings from symptomatic plants were collected from Kerala (two clones), Orrisa (eight clones), and Adrapradesh (three clones) and maintained in an insect-proof glasshouse. Leaves from symptomatic plants were mechanically inoculated to I setosa, I. nil, Nicotiana tabacum, N. benthamiana, Datura stramonium, and Chenapodium quinoa (12 seedlings each). Vein clearing, netting, and leaf distortion were observed in I. setosa and N tabacum 7 days postinoculation, chlorotic spots observed in N. benthamiana, and violet spots and violet margins on leaves observed on I. Nil. No symptoms were observed on D. stramonium and C. quinoa. When scions from the symptomatic sweet potato plants were graft inoculated onto I. setosa, vein clearing, leaf curl, and puckering-like symptoms were observed within 5 days. Mosaic and leaf curling symptoms were also observed on mechanically inoculated N. tabacum. Total nucleic acids isolated from the 33 field-collected sweet potato samples, graft inoculated I. setosa plants, and mechanically inoculated N. tabacum and I. nil plants were used for PCR and reverse transcription (RT)-PCR with geminivirus group specific (2) and potyvirus group specific primers (1). The expected 530-bp and 1.3-kb fragment were generated from the geminivirus and potyvirus primer sets, respectively. Potyvirus alone was detected in 7 of the 33 field-collected plants; geminivirus alone was detected in 7 other plants, while 19 plants contained detectible levels of potyvirus and geminivirus. To further identify the viruses, nested primers specific for the coat protein gene of Sweet potato feathery mottle virus (SPFMV) (CP1S 5'
AGT
GGG AAG
GCA
CCA TAC ATA GC 3', CP1A5'
GCA
GAG GAT GTC CTA TTG CAC ACC 3') (CP2S 5'TCT
AGT
GAA CGT ACT GAA TTC AAA GA 3', CP2A 5'ATT
GCA
CAC CCC TGA TTC CTA AGA 3') and Sweet potato leaf curl virus (SPLCV) (CP1- 5'ATG ACA GGG CGA ATT CGC GTT TC 3', CP2- 5'TTA ATT TTT GTG CGA ATC ATA 3') were designed. I. setosa and N. tabacum were amplified with SPFMV and SPLCV primers and the amplicons of 960 and 764 bp, respectively, obtained were subsequently cloned into pGEM-T Easy vector and sequenced. Nucleotide BLAST analysis revealed that the 960-bp fragment (GenBank Accession No. EF015398.) was 98% identical to two Egyptian isolates of SPFMV (Nos. AJ 515379 and AJ 515378). The nucleotide sequence of the 764-bp products (Nos. EF 151926 and EF15483) from the samples collected from Kerala and Orisa was 95% identical to each other. The sequence identity of EF 15483 with Sweet potato leaf curl Georgia virus (SPLCGV) isolate AF326775. was 91% and identity with China isolate DQ 512731 was 90% The isolate EF 151926 also was 91% identical to the SPLCGV with a high query and alignment score whereas identity with the China isolate was 91% with a low query coverage and alignment score. Phylogenic analysis with MEGA software program also showed the highest sequence similarity with SPLCGV, hence it is concluded that the geminivirus isolate under study is SPLCGV. To our knowledge, this is the first report of identification of SPFMV and SPLCGV occurring on sweet potato in India. Further study is required to understand the consequences of occurrence of these two viruses in India. References: (1) D. Colinet et al. Plant Dis. 28:223 1998. (2) D. D. Deng et al. Ann. Appl. Biol 125:327, 1993.
...
PMID:Occurrence of Sweet potato feathery mottle virus and Sweet potato leaf curl Georgia virus on Sweet Potato in India. 3076 15
Dahlia (Dahlia variabilis Hort.) is a significant ornamental plant in New Zealand. Symptoms such as mosaic, ring spots, mottling, and veinal chlorosis, suggestive of a viral infection, are often seen in various dahlia collections. To better understand the incidence of viruses in dahlia in New Zealand, several popularly grown cultivars were evaluated for viruses that are known to infect dahlia. Viruses that were tested included Cucumber mosaic virus (CMV), Dahlia mosaic virus (DMV), Impatiens necrotic spot virus (INSV), Tobacco streak virus (TSV), and Tomato spotted wilt virus (TSWV). At least one symptomatic plant was tested from each of the following cultivars: Akito Dawn, Cincinnati Dancer, Hamari Accord, Hamari Rose, LeBatts Prime, LeVonne Splinter, Riverlea Tropicana, Spartacus, Tartan, Tui Connie, and Wandas Antartica. Except for DMV, initial testing was done by ELISA with commercially available kits for the above viruses. In the case of dahlia mosaic, samples were tested for DMV that was described previously (4) and two additional and distinct caulimoviruses (DMV-D10 and DMV-Holland) that were found to be associated with dahlia (1,2). Primer pairs, ORF6st: ATG GAA GAA ATT AAG GCG T and ORF6end: TTG TCT TCA TCC ATA AAG CAG; DenF1: CAG CAA GAA ACA GGA ATT GA and DenR: TTA CAG TCG AAG CTG CTA AA; and Kapht-F: ATG
AGT
AAT GCT TCA
GCA
A and Kapht-R: TGA CCA TGG CTT CTA ACT GT were used for the specific detection of DMV-D10, DMV-Holland, and DMV, respectively (1). None of the samples tested were ELISA positive for CMV, INSV, or TSWV. To verify the TSV infection, TSV-specific primers (5'-GTC CAG ACC ATC CAT CCA AC-3' and 5'-TTG ATT CAC CAG GAA ATC TT-3'), designed based on sequences available in GenBank, were used in reverse transcription (RT)-PCR. For DMV, the diagnostic tests used were electron microscopy and PCR followed by amplicon cloning and sequencing. Electron microscopic observation of leaf-dip preparations showed near isometric virions, approximately 50 to 60 nm in all samples tested. PCR showed that all samples tested were positive for DMV-Holland and DMV-D10. While DMV-Holland is a typical caulimovirus, DMV-D10 was found to exist as an endogenous plant pararetroviral sequence in dahlia (3). One sample each from two cultivars, Spartacus and Tui Connie, were positive for TSV by ELISA, RT-PCR, followed by the sequence analysis of the cloned amplicon. The impact of TSV-infected dahlias as a potential source of inoculum remains to be seen. Our results suggested the prevalence of dahlia mosaic-associated caulimoviruses in several dahlia cultivars and the presence of TSV in New Zealand dahlias. Dahlia mosaic continues to be prevalent in several parts of the world (1), and with the current findings in New Zealand, testing for these viruses should be conducted to ensure virus-free status of the propagating material. References: (1) V. Pahalawatta et al. Plant Dis. 91:1194, 2007. (2) V. Pahalawatta et al. Arch. Virol.153:733, 2008. (3) V. Pahalawatta et al. Virology 376:253, 2008. (4) R. D. Richins and R. J. Shepherd. Virology 124:208, 1983.
...
PMID:Dahlia mosaic virus and Tobacco streak virus in Dahlia (Dahlia variabilis) in New Zealand. 3076 5
Stunting, chlorosis, and light yellow mottling resembling symptoms of nutrient deficiency were observed in angelonia (Angelonia angustifolia) in commercial production in New York. Numerous, filamentous particles 520 to 540 nm long and spherical virus particles 30 nm in diameter were observed by transmission electron microscopy (TEM) in negatively stained partially purified extracts of symptomatic Angelonia leaf tissue. Two viruses, the filamentous potexvirus Alternanthera mosaic virus (AltMV) and the spherical carmovirus Angelonia flower break virus (AnFBV) were subsequently identified on the basis of nucleotide sequence analysis of amplicons generated by reverse transcription (RT)-PCR using total RNA isolated from infected leaf tissue. A 584-bp portion of the replicase-encoding region of the AltMV genome was obtained with the degenerate primers Potex 2RC (5'-AGC ATR GNN SCR TCY TG-3') and Potex 5 (5'-CAY CAR CAR GCM AAR GAT GA-3') (3). Forward (AnFBV CP 1F-5'-AGC CTG
GCA
ATC TGC GTA CTG ATA-3') and reverse (AnFBV CP 1R-5'-AAT ACC GCC CTC CTG TTT GGA
AGT
-3') primers based on the published AnFBV genomic sequence (GenBank Accession No. NC_007733) were used to amplify a portion of the viral coat protein (CP) gene. The nucleotide sequence of the amplicon generated using the potexvirus-specific primers (GenBank Accession No. EU679362) was 99% identical to the published AltMV (GenBank Accession No. NC_007731) sequence and the nucleotide sequence of the amplicon obtained using the AnFBV CP primers was 99% identical to the published AnFBV genomic sequence (GenBank Accession No. EU679363). AnFBV occurs widely in angelonia (1) and AltMV has been identified in phlox (2). These data confirm the presence of AltMV and AnFBV in diseased angelonia plants showing stunting and nutrient deficiency-like symptoms and substantiates, to our knowledge, this first report of AltMV in angelonia in the United States. References: (1) S. Adkins et al. Phytopathology 96:460, 2006. (2) J. Hammond et al. Arch. Virol. 151:477, 2006. (3) R. A. A. van der Vlugt and M. Berendeson. Eur. J. Plant Pathol. 108:367, 2002.
...
PMID:First Report of Alternanthera mosaic virus Infection in Angelonia in the United States. 3076 47
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