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Biblioteca (s) : |
INIA Tacuarembó. |
Fecha : |
21/02/2014 |
Actualizado : |
28/10/2019 |
Autor : |
WITTWER, C.; HAHN, M.; KAUL, K. (Ed.). |
Afiliación : |
CARL WITTWER; MEINHARD HAHN; KAREN KAUL. |
Título : |
Rapid cycle real-time PCR : methods and applications : quantification. |
Fecha de publicación : |
2004 |
Fuente / Imprenta : |
Berlin ; New York : Springer, 2004. |
Páginas : |
223 p |
ISBN : |
3-540-20629-9 |
Idioma : |
Inglés |
Contenido : |
Part I. Methods. Housekeeping Genes: A Gold Standard? ONNO BAKKER, DAPHNE C. TIMMER. The Choice of House Keeping Genes in MRD-Quantification of AML1-ETO Positive Acute Myeloid Leukemia. MARTIN WEISSER, CLAUDIA SCHOCH, TORSTEN HAFERLACH, WOLFGANG HIDDEMANN, SUSANNE SCHNITTGER. Quantification of mRNA Using Linear Regression of Log-Linear PCR Data-Points as an Alternative for the Standard Curve Approach. CHRISTIAN RAMAKERS, DAPHNE TIMMER, ONNO BAKKER, RONALD H. LEKANNE DEPREZ, JAN M. RUIJTER, ANTOON F.M. MOORMAN. Measuring Genome Sizes by Absolute Quantification. JOCHEN WILHELM, MEINHARD HAHN. Part II. Applications. Regulation and Development Relative Quantification of Insulin Gene Expression on the LightCycler Using SYBR Green I . NICOLE NEUBAUER- Quantification of BRec-ViJa Signal Joint T-Cell Receptor Excision Circle DNA in Patients after Autologous and Allogeneic Stem Cell Transplantation. JUERGEN LOEFFLER, HOLGER HEBART, LUTZ LOCHMANN, THOMAS DAIKELER, PETER BADER, RALF BAUER, KATHRIN SCHMIDT, HERMANN EINSELE. Expression Analysis of Mitochondrial Components in a Variety of Plant Species Using Real-Time Quantitative PCR. KATHARINE A. HOWELL, RYAN LISTER, JAMES WHELAN. Quantification of Ikaros Splice Variants by Real-Time PCR. ELLI VEISTINEN, KALLE-PEKKA NERA, JUKKA ALINIKULA, OLLI LASSILA, Methods to Quantify Cytokine Gene Expression by Real-Time PCR. PATRICK STORDEUR. Oncology. Profiling Breast Cancer Using Real-Time Quantitative PCR. SCOT G. FRANK, PHILIP S. BERNARD HER-2/neu Gene Copy Number Quantified by Real-Time PCR in Cell Lines and Breast Cancer Tissue. MELANIE KONIGSHOFF, JOCHEN WILHELM, MEINHARD HAHN. Quantification of Several Components of Fibrinolytic and Matrix Metalloproteinase Systems in Primary Breast Cancer . REMEDIOS CASTELL6, FRANCISCO ESPANA, JUSTO AZNAR, AMPARO ESTELLES. A Rapid Cycle Real-Time Quantitative P-globin PCR for Quantification
of Human DNA in Feces. CORNt H.W. KLAASSEN, CLEMENS F.M. PRINSEN, FREDERIK B.J.M. THUNNISSEN. Quantification of Tumor Load for Follicular Lymphoma by Quantifying BCL2/IGH Using Real-Time Quantitative PCR by LightCyclerTM. CHUNG-CHE CHANG, BERNARD C. SCHUR, B.S. Real-Time Quantification of the AML Rearrangements, AML 1-ETO and TEL-AML 1, in Acute Leukemia. EVA BARRAGAN, PASCUAL BOLUFER, MIGUEL ANGEL SANZ
Genetics. Rapid Detection of Gene Duplications in Charcot-Marie-Tooth 1A Disease by SNP Genotyping Using Real-Time PCR. C. RUIZ-PONTE, A. VEGA, A. CARRACEDO, F. BARROS. Cytochrome P450 2D6 Deletion Genotyping Using Derivative Curve Analysis on the LightCycler. ALISON MILLSON, ELIZABETH. L. FRANK, ELAINE LYON. Trisomy 21 Detected by SNP Allele Ratios. GENEVIEVE PONT-KINGDON, ELAINE LYON. Quantitative Chimerism Analysis by Allele-Specific Real-Time PCR of a 10 bp Insertion/Deletion Polymorphism within the Promotor Region of Factor Vllc. HENDRIK REUTER, BJORN TEWS, JOCHEN WILHELM, MEINHARD HAHN. Microbiology Detection of SARS-Coronavirus in the LightCycler by 5'-Nuclease Real-Time RT-PCR. CHRISTIAN DROSTEN. Normalized Quantitative Rapid-Cycle Real-Time PCR for the Assessment of CMV-DNA Copies. MARKUS STOCHER, JORG BERG. MenosPart I. Methods. Housekeeping Genes: A Gold Standard? ONNO BAKKER, DAPHNE C. TIMMER. The Choice of House Keeping Genes in MRD-Quantification of AML1-ETO Positive Acute Myeloid Leukemia. MARTIN WEISSER, CLAUDIA SCHOCH, TORSTEN HAFERLACH, WOLFGANG HIDDEMANN, SUSANNE SCHNITTGER. Quantification of mRNA Using Linear Regression of Log-Linear PCR Data-Points as an Alternative for the Standard Curve Approach. CHRISTIAN RAMAKERS, DAPHNE TIMMER, ONNO BAKKER, RONALD H. LEKANNE DEPREZ, JAN M. RUIJTER, ANTOON F.M. MOORMAN. Measuring Genome Sizes by Absolute Quantification. JOCHEN WILHELM, MEINHARD HAHN. Part II. Applications. Regulation and Development Relative Quantification of Insulin Gene Expression on the LightCycler Using SYBR Green I . NICOLE NEUBAUER- Quantification of BRec-ViJa Signal Joint T-Cell Receptor Excision Circle DNA in Patients after Autologous and Allogeneic Stem Cell Transplantation. JUERGEN LOEFFLER, HOLGER HEBART, LUTZ LOCHMANN, THOMAS DAIKELER, PETER BADER, RALF BAUER, KATHRIN SCHMIDT, HERMANN EINSELE. Expression Analysis of Mitochondrial Components in a Variety of Plant Species Using Real-Time Quantitative PCR. KATHARINE A. HOWELL, RYAN LISTER, JAMES WHELAN. Quantification of Ikaros Splice Variants by Real-Time PCR. ELLI VEISTINEN, KALLE-PEKKA NERA, JUKKA ALINIKULA, OLLI LASSILA, Methods to Quantify Cytokine Gene Expression by Real-Time PCR. PATRICK STORDEUR. Oncology. Profiling Breast Cancer Using Real-Time Quantitative PCR. SCOT G. FRANK, PHILIP S... Presentar Todo |
Thesagro : |
BIOTECNOLOGIA. |
Asunto categoría : |
-- |
Marc : |
LEADER 03587nam a2200169 a 4500 001 1018865 005 2019-10-28 008 2004 bl uuuu u00u1 u #d 020 $a3-540-20629-9 100 1 $aWITTWER, C. 245 $aRapid cycle real-time PCR$bmethods and applications : quantification. 260 $aBerlin ; New York : Springer$c2004 300 $a223 p 520 $aPart I. Methods. Housekeeping Genes: A Gold Standard? ONNO BAKKER, DAPHNE C. TIMMER. The Choice of House Keeping Genes in MRD-Quantification of AML1-ETO Positive Acute Myeloid Leukemia. MARTIN WEISSER, CLAUDIA SCHOCH, TORSTEN HAFERLACH, WOLFGANG HIDDEMANN, SUSANNE SCHNITTGER. Quantification of mRNA Using Linear Regression of Log-Linear PCR Data-Points as an Alternative for the Standard Curve Approach. CHRISTIAN RAMAKERS, DAPHNE TIMMER, ONNO BAKKER, RONALD H. LEKANNE DEPREZ, JAN M. RUIJTER, ANTOON F.M. MOORMAN. Measuring Genome Sizes by Absolute Quantification. JOCHEN WILHELM, MEINHARD HAHN. Part II. Applications. Regulation and Development Relative Quantification of Insulin Gene Expression on the LightCycler Using SYBR Green I . NICOLE NEUBAUER- Quantification of BRec-ViJa Signal Joint T-Cell Receptor Excision Circle DNA in Patients after Autologous and Allogeneic Stem Cell Transplantation. JUERGEN LOEFFLER, HOLGER HEBART, LUTZ LOCHMANN, THOMAS DAIKELER, PETER BADER, RALF BAUER, KATHRIN SCHMIDT, HERMANN EINSELE. Expression Analysis of Mitochondrial Components in a Variety of Plant Species Using Real-Time Quantitative PCR. KATHARINE A. HOWELL, RYAN LISTER, JAMES WHELAN. Quantification of Ikaros Splice Variants by Real-Time PCR. ELLI VEISTINEN, KALLE-PEKKA NERA, JUKKA ALINIKULA, OLLI LASSILA, Methods to Quantify Cytokine Gene Expression by Real-Time PCR. PATRICK STORDEUR. Oncology. Profiling Breast Cancer Using Real-Time Quantitative PCR. SCOT G. FRANK, PHILIP S. BERNARD HER-2/neu Gene Copy Number Quantified by Real-Time PCR in Cell Lines and Breast Cancer Tissue. MELANIE KONIGSHOFF, JOCHEN WILHELM, MEINHARD HAHN. Quantification of Several Components of Fibrinolytic and Matrix Metalloproteinase Systems in Primary Breast Cancer . REMEDIOS CASTELL6, FRANCISCO ESPANA, JUSTO AZNAR, AMPARO ESTELLES. A Rapid Cycle Real-Time Quantitative P-globin PCR for Quantification of Human DNA in Feces. CORNt H.W. KLAASSEN, CLEMENS F.M. PRINSEN, FREDERIK B.J.M. THUNNISSEN. Quantification of Tumor Load for Follicular Lymphoma by Quantifying BCL2/IGH Using Real-Time Quantitative PCR by LightCyclerTM. CHUNG-CHE CHANG, BERNARD C. SCHUR, B.S. Real-Time Quantification of the AML Rearrangements, AML 1-ETO and TEL-AML 1, in Acute Leukemia. EVA BARRAGAN, PASCUAL BOLUFER, MIGUEL ANGEL SANZ Genetics. Rapid Detection of Gene Duplications in Charcot-Marie-Tooth 1A Disease by SNP Genotyping Using Real-Time PCR. C. RUIZ-PONTE, A. VEGA, A. CARRACEDO, F. BARROS. Cytochrome P450 2D6 Deletion Genotyping Using Derivative Curve Analysis on the LightCycler. ALISON MILLSON, ELIZABETH. L. FRANK, ELAINE LYON. Trisomy 21 Detected by SNP Allele Ratios. GENEVIEVE PONT-KINGDON, ELAINE LYON. Quantitative Chimerism Analysis by Allele-Specific Real-Time PCR of a 10 bp Insertion/Deletion Polymorphism within the Promotor Region of Factor Vllc. HENDRIK REUTER, BJORN TEWS, JOCHEN WILHELM, MEINHARD HAHN. Microbiology Detection of SARS-Coronavirus in the LightCycler by 5'-Nuclease Real-Time RT-PCR. CHRISTIAN DROSTEN. Normalized Quantitative Rapid-Cycle Real-Time PCR for the Assessment of CMV-DNA Copies. MARKUS STOCHER, JORG BERG. 650 $aBIOTECNOLOGIA 700 1 $aHAHN, M. 700 1 $aKAUL, K.
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Registro original : |
INIA Tacuarembó (TBO) |
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Biblioteca (s) : |
INIA La Estanzuela. |
Fecha actual : |
15/09/2014 |
Actualizado : |
20/06/2022 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
B - 1 |
Autor : |
CARRASCO-LETELIER, L.; MENDOZA, Y.; RAMALLO, G. |
Afiliación : |
LEONIDAS CARRASCO LETELIER, Instituto Nacional de Investigación Agropecuaria (INIA), Uruguay; YAMANDU MENDOZA SPINA, Instituto Nacional de Investigación Agropecuaria (INIA), Uruguay; GUSTAVO NOEL RAMALLO MEDINA, Instituto Nacional de Investigación Agropecuaria (INIA), Uruguay. |
Título : |
Acute contact toxicity test of oxalic acid on honeybees of the southwestern zone of Uruguay. [Prueba de Toxicidad Aguda por Contacto de Ácido Oxálico en Abejas de la Zona Sudoeste de Uruguay.] |
Fecha de publicación : |
2012 |
Fuente / Imprenta : |
Chilean Journal of Agricultural Research, v.72, n. 2, p. 285-289, 2012. doi: http://dx.doi.org/10.4067/S0718-58392012000200019 |
ISSN : |
0718-5839 |
DOI : |
10.4067/S0718-58392012000200019 |
Idioma : |
Inglés |
Notas : |
Article history: Received: 6 July 2011./Accepted: 17 May 2012. |
Contenido : |
Abstract:This work studies the acute contact toxicity of oxalic acid (OA) on a honeybee polyhybrid subspecies (Apis mellifera),
which is the dominant biotype in southwestern zone of Uruguay (SWZU) and the country?s most important honey-producing
region. We determined the mean lethal dose (LD50), as well as the no observed effect level (NOEL) and the lowest observed
effect level (LOEL) values. We also estimated the total number of honeybees per hive in the test area. The aim was to assess
the relationship between the maximum OA dose used in Uruguay (3.1 g OA per hive) and the toxicological parameters of
honeybees from SWZU. The current dose of 3.1 g OA per hive corresponds to 132.8 µg OA per honeybee since determined
NOEL is 400 µg OA per honeybee; our results indicate that the current dose could be increased to 9.3 g OA per hive. The
results also highlight some differences between the LD50 value in SWZU honeybees (548.95 µg OA per honeybee) and
some published LD50 values for other honeybee subspecies. |
Palabras claves : |
APICULTURA; ECOTOXICOLOGÍA; QUÍMICA AMBIENTAL. |
Thesagro : |
APICULTURA. |
Asunto categoría : |
T01 Polución |
URL : |
http://www.ainfo.inia.uy/digital/bitstream/item/13781/1/Chilean-Journal-of-Agricultural-Research-v.72-n.-2-p.-285-289-2012..pdf
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Marc : |
LEADER 01929naa a2200229 a 4500 001 1050243 005 2022-06-20 008 2012 bl uuuu u00u1 u #d 022 $a0718-5839 024 7 $a10.4067/S0718-58392012000200019$2DOI 100 1 $aCARRASCO-LETELIER, L. 245 $aAcute contact toxicity test of oxalic acid on honeybees of the southwestern zone of Uruguay. [Prueba de Toxicidad Aguda por Contacto de Ácido Oxálico en Abejas de la Zona Sudoeste de Uruguay.]$h[electronic resource] 260 $c2012 500 $aArticle history: Received: 6 July 2011./Accepted: 17 May 2012. 520 $aAbstract:This work studies the acute contact toxicity of oxalic acid (OA) on a honeybee polyhybrid subspecies (Apis mellifera), which is the dominant biotype in southwestern zone of Uruguay (SWZU) and the country?s most important honey-producing region. We determined the mean lethal dose (LD50), as well as the no observed effect level (NOEL) and the lowest observed effect level (LOEL) values. We also estimated the total number of honeybees per hive in the test area. The aim was to assess the relationship between the maximum OA dose used in Uruguay (3.1 g OA per hive) and the toxicological parameters of honeybees from SWZU. The current dose of 3.1 g OA per hive corresponds to 132.8 µg OA per honeybee since determined NOEL is 400 µg OA per honeybee; our results indicate that the current dose could be increased to 9.3 g OA per hive. The results also highlight some differences between the LD50 value in SWZU honeybees (548.95 µg OA per honeybee) and some published LD50 values for other honeybee subspecies. 650 $aAPICULTURA 653 $aAPICULTURA 653 $aECOTOXICOLOGÍA 653 $aQUÍMICA AMBIENTAL 700 1 $aMENDOZA, Y. 700 1 $aRAMALLO, G. 773 $tChilean Journal of Agricultural Research$gv.72, n. 2, p. 285-289, 2012. doi: http://dx.doi.org/10.4067/S0718-58392012000200019
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