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Registro Completo |
Biblioteca(s): |
Ebooks. |
Data corrente: |
01/02/2013 |
Data da última atualização: |
01/02/2013 |
Autoria: |
RANEY, K. D.; GOTTE, M.; CAMERON, C. E. |
Afiliação: |
Kevin D. Raney; Matthias Gotte; Craig E. Cameron. |
Título: |
Viral Genome Replication. |
Ano de publicação: |
2009 |
Fonte/Imprenta: |
Springer eBooks. |
Descrição Física: |
digital. |
ISBN: |
9780387894560 |
DOI: |
10.1007/b135974 |
Idioma: |
Inglês |
Conteúdo: |
Genome replication strategies -- plus-strand RNA viruses -- Model of Picornavirus RNA Replication -- Coronavirus Genome Replication -- Flaviviruses -- Hepatitis C virus genome replication -- Brome mosaic virus RNA replication and transcription -- Retroviruses -- Hepadnaviral genomic replication -- minus-strand RNA viruses -- Orthomyxoviruses genome transcription and replication -- ambisense RNA viruses -- Arenaviruses: Genome replication strategies -- dsRNA viruses -- Core-associated genome replication mechanisms of dsRNA viruses -- DNA viruses -- Poxviruses -- Herpesevirus genome replication -- Host factors -- Host factors promoting replication -- Host factors that restrict retrovirus replication -- Elements, factors and enzymes: Structure-function and mechanism -- T4 Phage Replisome -- Atomic structure of the Herpes Simplex Virus 1 DNA polymerase -- RNA virus polymerases -- Human immunodeficiency virus reverse transcriptase -- Viral helicases -- Integrase: structure, function and mechanism -- Antivirals: Targets, mechanisms and resistance -- Viral DNA polymerase inhibitors -- RNA polymerase inhibitors -- HIV reverse transcriptase inhibitors and mechanisms of resistance -- Lethal mutagenesis -- Clinical implications of reverse transcriptase inhibitor resistance .Currently, there is no single source that permits comparison of the factors, elements, enzymes and/or mechanisms employed by different classes of viruses for genome replication. As a result, we (and our students) often restrict our focus to our particular system, missing out on the opportunity to define unifying themes in viral genome replication or benefit from the advances in other systems. For example, extraordinary biological and experimental paradigms that have been established over the past five years for the DNA replication systems of bacteriophage T4 and T7 will likely be of great value to anyone interested in studying a replisome from any virus. These studies could easily go unnoticed by animal RNA and DNA virologists. It is our hope that this monograph will cross-fertilize and invigorate the field, as well as encourage students into this area of research. MenosGenome replication strategies -- plus-strand RNA viruses -- Model of Picornavirus RNA Replication -- Coronavirus Genome Replication -- Flaviviruses -- Hepatitis C virus genome replication -- Brome mosaic virus RNA replication and transcription -- Retroviruses -- Hepadnaviral genomic replication -- minus-strand RNA viruses -- Orthomyxoviruses genome transcription and replication -- ambisense RNA viruses -- Arenaviruses: Genome replication strategies -- dsRNA viruses -- Core-associated genome replication mechanisms of dsRNA viruses -- DNA viruses -- Poxviruses -- Herpesevirus genome replication -- Host factors -- Host factors promoting replication -- Host factors that restrict retrovirus replication -- Elements, factors and enzymes: Structure-function and mechanism -- T4 Phage Replisome -- Atomic structure of the Herpes Simplex Virus 1 DNA polymerase -- RNA virus polymerases -- Human immunodeficiency virus reverse transcriptase -- Viral helicases -- Integrase: structure, function and mechanism -- Antivirals: Targets, mechanisms and resistance -- Viral DNA polymerase inhibitors -- RNA polymerase inhibitors -- HIV reverse transcriptase inhibitors and mechanisms of resistance -- Lethal mutagenesis -- Clinical implications of reverse transcriptase inhibitor resistance .Currently, there is no single source that permits comparison of the factors, elements, enzymes and/or mechanisms employed by different classes of viruses for genome replication. As a result, we (and our stu... Mostrar Tudo |
Palavras-Chave: |
Biochemistry, general; Biomedicine; Cytology; Medical virology. |
Thesaurus Nal: |
biochemistry; cell biology; human genetics; immunology; medicine; microbiology; virology. |
Categoria do assunto: |
-- |
URL: |
https://dx.doi.org/10.1007/b135974
|
Marc: |
LEADER 02930nam a2200301 a 4500 001 1947266 005 2013-02-01 008 2009 bl uuuu u0uu1 u #d 020 $a9780387894560 024 7 $a10.1007/b135974$2DOI 100 1 $aRANEY, K. D. 245 $aViral Genome Replication.$h[electronic resource] 260 $aSpringer eBooks.$c2009 300 $cdigital. 520 $a<P>Genome replication strategies -- plus-strand RNA viruses -- Model of Picornavirus RNA Replication -- Coronavirus Genome Replication -- Flaviviruses -- Hepatitis C virus genome replication -- Brome mosaic virus RNA replication and transcription -- Retroviruses -- Hepadnaviral genomic replication -- minus-strand RNA viruses -- Orthomyxoviruses genome transcription and replication -- ambisense RNA viruses -- Arenaviruses: Genome replication strategies -- dsRNA viruses -- Core-associated genome replication mechanisms of dsRNA viruses -- DNA viruses -- Poxviruses -- Herpesevirus genome replication -- Host factors -- Host factors promoting replication -- Host factors that restrict retrovirus replication -- Elements, factors and enzymes: Structure-function and mechanism -- T4 Phage Replisome -- Atomic structure of the Herpes Simplex Virus 1 DNA polymerase -- RNA virus polymerases -- Human immunodeficiency virus reverse transcriptase -- Viral helicases -- Integrase: structure, function and mechanism -- Antivirals: Targets, mechanisms and resistance -- Viral DNA polymerase inhibitors -- RNA polymerase inhibitors -- HIV reverse transcriptase inhibitors and mechanisms of resistance -- Lethal mutagenesis -- Clinical implications of reverse transcriptase inhibitor resistance</P>.<P>Currently, there is no single source that permits comparison of the factors, elements, enzymes and/or mechanisms employed by different classes of viruses for genome replication. As a result, we (and our students) often restrict our focus to our particular system, missing out on the opportunity to define unifying themes in viral genome replication or benefit from the advances in other systems. For example, extraordinary biological and experimental paradigms that have been established over the past five years for the DNA replication systems of bacteriophage T4 and T7 will likely be of great value to anyone interested in studying a replisome from any virus. These studies could easily go unnoticed by animal RNA and DNA virologists. It is our hope that this monograph will cross-fertilize and invigorate the field, as well as encourage students into this area of research.</P> 650 $abiochemistry 650 $acell biology 650 $ahuman genetics 650 $aimmunology 650 $amedicine 650 $amicrobiology 650 $avirology 653 $aBiochemistry, general 653 $aBiomedicine 653 $aCytology 653 $aMedical virology 700 1 $aGOTTE, M. 700 1 $aCAMERON, C. E.
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1. | | GUERRERO, F. D.; CAMERON, C.; FOIL, L. D.; BARROS, A. T. M. de; CROW, J.; RETZEL, E. Molecular sequence dataset to identify metabolic-based pyrethroid resistance in the horn fly, Haematobia irritans. In: CONGRESSO BRASILEIRO DE PARASITOLOGIA VETERINÁRIA, 17., 2012, São Luis. Parasitologia veterinária, bem estar e produção animal: anais. São Luis: Colégio Brasileiro de Parasitologia Veterinária, 2012. Resumo: PA 149. p. 193Tipo: Resumo em Anais de Congresso |
Biblioteca(s): Embrapa Pantanal. |
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2. | | GUPTA, Y. K.; MARCELINO-GUIMARÃES, F. C.; LORRAIN, C.; FARMER, A.; HARIDAS, S.; FERREIRA, E. G. C.; LOPES-CAITAR, V. S.; OLIVEIRA, L. S.; MORIN, E.; WIDDISON, S.; CAMERON, C.; INOUE, Y.; THOR, K.; ROBINSON, K.; DRULA, E.; HENRISSAT, B.; LABUTTI, K.; BINI, A. M. R.; PAGET, E.; SINGAN, V.; DAUM, C.; DORME, C.; HOEK, M. V.; JANSSEN, A.; CHANDAT, L.; TARRIOTTE, Y.; RICHARDON, J.; MELO, B. do V. A.; WITTENBERG, A. H. J.; SCHNEIDERS, H.; PEYRARD, S.; ZANARDO, L. G.; HOLTMAN, V. C.; COULOMBIER-CHAUVEL, F.; LINK, T. I.; BALMER, D.; MÜLLER, A. N.; KIND, S.; BOHNERT, S.; WIRTZ, L.; CHEN, C.; YAN, M.; NG, V.; GAUTIER, P.; MEYER, M. C.; VOEGELE, R. T.; LIU, Q.; GRIGORIEV, I. V.; CONRATH, U.; BROMMONSCHENKEL, S. H.; LOEHRER, M.; SCHAFFRATH, U.; SIRVEN, C.; SCALLIET, G.; DUPLESSIS, S.; ESSE, H. P. van. Major proliferation of transposable elements shaped the genome of the soybean rust pathogen Phakopsora pachyrhizi. Nature Communications, v. 14, 1835, 2023. 16 p.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Soja. |
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3. | | BERTIOLI, D. J.; JENKINS, J.; CLEVENGER, J.; DUDCHENKO, O.; GAO, D.; SEIJO, G.; LEAL-BERTIOLI, S. C. M.; REN, L.; FARMER, A. D.; PANDEY, M. K.; SAMOLUK, S. S.; ABERNATHY, B.; AGARWAL, G.; BALLÉN-TABORDA, C.; CAMERON, C.; CAMPBELL, J.; CHAVARRO, C.; CHITIKINENI, A.; CHU, Y.; DASH, S.; BAIDOURI, M. E.; GUO, B.; HUANG, W.; KIM, K. D.; KORANI, W.; LANCIANO, S.; LUI, C. G.; MIROUZE, M.; MORETZSOHN, M. C.; PHAM, M.; SHIN, J. H.; SHIRASAWA, K.; SINHAROY, S.; SREEDASYAM, A.; WEEKS, N. T.; ZHANG, X.; ZHENG, Z.; SUN, Z.; FROENICKE, L.; AIDEN, E. L.; MICHELMORE, R.; VARSHNEY, R. K.; HOLBROOK, C. C.; CANNON, E. K. S.; SCHEFFLER, B. E.; GRIMWOOD, J.; OZIAS-AKINS, P.; CANNON, S. B.; JACKSON, S. A.; SCHMUTZ, J. The genome sequence of segmental allotetraploid peanut Arachis hypogaea. Nature Genetics, v. 51, n. 5, p. 877-884, 2019.Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 1 |
Biblioteca(s): Embrapa Recursos Genéticos e Biotecnologia. |
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