MADS-box (French Wikipedia)

Analysis of information sources in references of the Wikipedia article "MADS-box" in French language version.

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21nih.gov

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20doi.org

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6harvard.edu

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2issn.org

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1diva-portal.org

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diva-portal.org

Mats Svensson, Evolution of a family of plant genes with regulatory functions in development; studies on Picea abies and Lycopodium annotinum, Uppsala University, Teknisk-naturvetenskapliga vetenskapsområdet, Biology, Department of Evolutionary Biology, coll. « Doctoral thesis », 2000 (ISBN 978-91-554-4826-4, lire en ligne)

doi.org

dx.doi.org

« DNA binding by MADS-box transcription factors: a molecular mechanism for differential DNA bending », Molecular and Cellular Biology, vol. 17, n^o 5,‎ mai 1997, p. 2876–87 (PMID 9111360, PMCID 232140, DOI 10.1128/MCB.17.5.2876)
« Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus », Science, vol. 250, n^o 4983,‎ novembre 1990, p. 931–6 (PMID 17746916, DOI 10.1126/science.250.4983.931, Bibcode 1990Sci...250..931S)
« Myocyte enhancer factor 2 acetylation by p300 enhances its DNA binding activity, transcriptional activity, and myogenic differentiation », Molecular and Cellular Biology, vol. 25, n^o 9,‎ mai 2005, p. 3575–82 (PMID 15831463, PMCID 1084296, DOI 10.1128/MCB.25.9.3575-3582.2005)
« Functional divergence within the APETALA3/PISTILLATA floral homeotic gene lineages », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, n^o 11,‎ mai 2003, p. 6558–63 (PMID 12746493, PMCID 164485, DOI 10.1073/pnas.0631708100, Bibcode 2003PNAS..100.6558L)
« Antiquity and evolution of the MADS-box gene family controlling flower development in plants », Molecular Biology and Evolution, vol. 20, n^o 9,‎ septembre 2003, p. 1435–47 (PMID 12777513, DOI 10.1093/molbev/msg152)
« Two AGAMOUS-like MADS-box genes from Taihangia rupestris (Rosaceae) reveal independent trajectories in the evolution of class C and class D floral homeotic functions », Evolution & Development, vol. 9, n^o 1,‎ 2007, p. 92–104 (PMID 17227369, DOI 10.1111/j.1525-142X.2006.00140.x)
« On the origin of MADS-domain transcription factors », Trends in Genetics, vol. 26, n^o 4,‎ avril 2010, p. 149–53 (PMID 20219261, DOI 10.1016/j.tig.2010.01.004)
« Characterization of two new genes essential for vegetative growth in Saccharomyces cerevisiae: nucleotide sequence determination and chromosome mapping », Gene, vol. 55, n^os 2–3,‎ 1987, p. 265–275 (PMID 3311883, DOI 10.1016/0378-1119(87)90286-1)
« Deficiens, a homeotic gene involved in the control of flower morphogenesis in Antirrhinum majus: the protein shows homology to transcription factors », The EMBO Journal, vol. 9, n^o 3,‎ mars 1990, p. 605–13 (PMID 1968830, PMCID 551713, DOI 10.1002/j.1460-2075.1990.tb08152.x)
« The major clades of MADS-box genes and their role in the development and evolution of flowering plants », Molecular Phylogenetics and Evolution, vol. 29, n^o 3,‎ décembre 2003, p. 464–89 (PMID 14615187, DOI 10.1016/S1055-7903(03)00207-0)
« A hitchhiker's guide to the MADS world of plants », Genome Biology, vol. 11, n^o 6,‎ 2010, p. 214 (PMID 20587009, PMCID 2911102, DOI 10.1186/gb-2010-11-6-214)
« The MADS-box family of transcription factors », European Journal of Biochemistry, vol. 229, n^o 1,‎ avril 1995, p. 1–13 (PMID 7744019, DOI 10.1111/j.1432-1033.1995.0001l.x)
« Plant biology. Floral quartets », Nature, vol. 409, n^o 6819,‎ janvier 2001, p. 469–71 (PMID 11206529, DOI 10.1038/35054172, Bibcode 2001Natur.409..469T)
(en) « Characterization of MADS-domain transcription factor complexes in Arabidopsis flower development », Proceedings of the National Academy of Sciences of the United States of America, vol. 109, n^o 5,‎ janvier 2012, p. 1560–5 (PMID 22238427, PMCID 3277181, DOI 10.1073/pnas.1112871109, Bibcode 2012PNAS..109.1560S)
« Structural basis for the oligomerization of the MADS domain transcription factor SEPALLATA3 in Arabidopsis », The Plant Cell, vol. 26, n^o 9,‎ septembre 2014, p. 3603–15 (PMID 25228343, PMCID 4213154, DOI 10.1105/tpc.114.127910)
« MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants », Proceedings of the National Academy of Sciences of the United States of America, vol. 96, n^o 13,‎ juin 1999, p. 7342–7 (PMID 10377416, PMCID 22087, DOI 10.1073/pnas.96.13.7342, Bibcode 1999PNAS...96.7342W)
« The war of the whorls: genetic interactions controlling flower development », Nature, vol. 353, n^o 6339,‎ septembre 1991, p. 31–7 (PMID 1715520, DOI 10.1038/353031a0, Bibcode 1991Natur.353...31C)
« Mutagenesis of plants overexpressing CONSTANS demonstrates novel interactions among Arabidopsis flowering-time genes », The Plant Cell, vol. 12, n^o 6,‎ juin 2000, p. 885–900 (PMID 10852935, PMCID 149091, DOI 10.1105/tpc.12.6.885)
« FLOWERING LOCUS C encodes a novel MADS domain protein that acts as a repressor of flowering », The Plant Cell, vol. 11, n^o 5,‎ mai 1999, p. 949–56 (PMID 10330478, PMCID 144226, DOI 10.1105/tpc.11.5.949)
Jack, « Molecular and genetic mechanisms of floral control », The Plant Cell, vol. 16 Suppl,‎ 2004, S1–S17 (ISSN 1040-4651, PMID 15020744, PMCID 2643400, DOI 10.1105/tpc.017038)

harvard.edu

ui.adsabs.harvard.edu

« Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus », Science, vol. 250, n^o 4983,‎ novembre 1990, p. 931–6 (PMID 17746916, DOI 10.1126/science.250.4983.931, Bibcode 1990Sci...250..931S)
« Functional divergence within the APETALA3/PISTILLATA floral homeotic gene lineages », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, n^o 11,‎ mai 2003, p. 6558–63 (PMID 12746493, PMCID 164485, DOI 10.1073/pnas.0631708100, Bibcode 2003PNAS..100.6558L)
« Plant biology. Floral quartets », Nature, vol. 409, n^o 6819,‎ janvier 2001, p. 469–71 (PMID 11206529, DOI 10.1038/35054172, Bibcode 2001Natur.409..469T)
(en) « Characterization of MADS-domain transcription factor complexes in Arabidopsis flower development », Proceedings of the National Academy of Sciences of the United States of America, vol. 109, n^o 5,‎ janvier 2012, p. 1560–5 (PMID 22238427, PMCID 3277181, DOI 10.1073/pnas.1112871109, Bibcode 2012PNAS..109.1560S)
« MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants », Proceedings of the National Academy of Sciences of the United States of America, vol. 96, n^o 13,‎ juin 1999, p. 7342–7 (PMID 10377416, PMCID 22087, DOI 10.1073/pnas.96.13.7342, Bibcode 1999PNAS...96.7342W)
« The war of the whorls: genetic interactions controlling flower development », Nature, vol. 353, n^o 6339,‎ septembre 1991, p. 31–7 (PMID 1715520, DOI 10.1038/353031a0, Bibcode 1991Natur.353...31C)

issn.org

portal.issn.org

Jack, « Molecular and genetic mechanisms of floral control », The Plant Cell, vol. 16 Suppl,‎ 2004, S1–S17 (ISSN 1040-4651, PMID 15020744, PMCID 2643400, DOI 10.1105/tpc.017038)
Riechmann et Meyerowitz, « MADS Domain Proteins in Plant Development », Biological Chemistry, vol. 378, n^o 10,‎ 1997, p. 1079–1101 (ISSN 1431-6730, PMID 9372178)

nih.gov

ncbi.nlm.nih.gov

« DNA binding by MADS-box transcription factors: a molecular mechanism for differential DNA bending », Molecular and Cellular Biology, vol. 17, n^o 5,‎ mai 1997, p. 2876–87 (PMID 9111360, PMCID 232140, DOI 10.1128/MCB.17.5.2876)
« Genetic Control of Flower Development by Homeotic Genes in Antirrhinum majus », Science, vol. 250, n^o 4983,‎ novembre 1990, p. 931–6 (PMID 17746916, DOI 10.1126/science.250.4983.931, Bibcode 1990Sci...250..931S)
« Myocyte enhancer factor 2 acetylation by p300 enhances its DNA binding activity, transcriptional activity, and myogenic differentiation », Molecular and Cellular Biology, vol. 25, n^o 9,‎ mai 2005, p. 3575–82 (PMID 15831463, PMCID 1084296, DOI 10.1128/MCB.25.9.3575-3582.2005)
« Functional divergence within the APETALA3/PISTILLATA floral homeotic gene lineages », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, n^o 11,‎ mai 2003, p. 6558–63 (PMID 12746493, PMCID 164485, DOI 10.1073/pnas.0631708100, Bibcode 2003PNAS..100.6558L)
« Antiquity and evolution of the MADS-box gene family controlling flower development in plants », Molecular Biology and Evolution, vol. 20, n^o 9,‎ septembre 2003, p. 1435–47 (PMID 12777513, DOI 10.1093/molbev/msg152)
« Two AGAMOUS-like MADS-box genes from Taihangia rupestris (Rosaceae) reveal independent trajectories in the evolution of class C and class D floral homeotic functions », Evolution & Development, vol. 9, n^o 1,‎ 2007, p. 92–104 (PMID 17227369, DOI 10.1111/j.1525-142X.2006.00140.x)
« On the origin of MADS-domain transcription factors », Trends in Genetics, vol. 26, n^o 4,‎ avril 2010, p. 149–53 (PMID 20219261, DOI 10.1016/j.tig.2010.01.004)
« Characterization of two new genes essential for vegetative growth in Saccharomyces cerevisiae: nucleotide sequence determination and chromosome mapping », Gene, vol. 55, n^os 2–3,‎ 1987, p. 265–275 (PMID 3311883, DOI 10.1016/0378-1119(87)90286-1)
« Deficiens, a homeotic gene involved in the control of flower morphogenesis in Antirrhinum majus: the protein shows homology to transcription factors », The EMBO Journal, vol. 9, n^o 3,‎ mars 1990, p. 605–13 (PMID 1968830, PMCID 551713, DOI 10.1002/j.1460-2075.1990.tb08152.x)
« The major clades of MADS-box genes and their role in the development and evolution of flowering plants », Molecular Phylogenetics and Evolution, vol. 29, n^o 3,‎ décembre 2003, p. 464–89 (PMID 14615187, DOI 10.1016/S1055-7903(03)00207-0)
« A hitchhiker's guide to the MADS world of plants », Genome Biology, vol. 11, n^o 6,‎ 2010, p. 214 (PMID 20587009, PMCID 2911102, DOI 10.1186/gb-2010-11-6-214)
« The MADS-box family of transcription factors », European Journal of Biochemistry, vol. 229, n^o 1,‎ avril 1995, p. 1–13 (PMID 7744019, DOI 10.1111/j.1432-1033.1995.0001l.x)
« Plant biology. Floral quartets », Nature, vol. 409, n^o 6819,‎ janvier 2001, p. 469–71 (PMID 11206529, DOI 10.1038/35054172, Bibcode 2001Natur.409..469T)
(en) « Characterization of MADS-domain transcription factor complexes in Arabidopsis flower development », Proceedings of the National Academy of Sciences of the United States of America, vol. 109, n^o 5,‎ janvier 2012, p. 1560–5 (PMID 22238427, PMCID 3277181, DOI 10.1073/pnas.1112871109, Bibcode 2012PNAS..109.1560S)
« Structural basis for the oligomerization of the MADS domain transcription factor SEPALLATA3 in Arabidopsis », The Plant Cell, vol. 26, n^o 9,‎ septembre 2014, p. 3603–15 (PMID 25228343, PMCID 4213154, DOI 10.1105/tpc.114.127910)
« MADS-box genes reveal that gnetophytes are more closely related to conifers than to flowering plants », Proceedings of the National Academy of Sciences of the United States of America, vol. 96, n^o 13,‎ juin 1999, p. 7342–7 (PMID 10377416, PMCID 22087, DOI 10.1073/pnas.96.13.7342, Bibcode 1999PNAS...96.7342W)
« The war of the whorls: genetic interactions controlling flower development », Nature, vol. 353, n^o 6339,‎ septembre 1991, p. 31–7 (PMID 1715520, DOI 10.1038/353031a0, Bibcode 1991Natur.353...31C)
« Mutagenesis of plants overexpressing CONSTANS demonstrates novel interactions among Arabidopsis flowering-time genes », The Plant Cell, vol. 12, n^o 6,‎ juin 2000, p. 885–900 (PMID 10852935, PMCID 149091, DOI 10.1105/tpc.12.6.885)
« FLOWERING LOCUS C encodes a novel MADS domain protein that acts as a repressor of flowering », The Plant Cell, vol. 11, n^o 5,‎ mai 1999, p. 949–56 (PMID 10330478, PMCID 144226, DOI 10.1105/tpc.11.5.949)
Jack, « Molecular and genetic mechanisms of floral control », The Plant Cell, vol. 16 Suppl,‎ 2004, S1–S17 (ISSN 1040-4651, PMID 15020744, PMCID 2643400, DOI 10.1105/tpc.017038)
Riechmann et Meyerowitz, « MADS Domain Proteins in Plant Development », Biological Chemistry, vol. 378, n^o 10,‎ 1997, p. 1079–1101 (ISSN 1431-6730, PMID 9372178)