M
Manda E. Gent
Researcher at University of Manchester
Publications - 17
Citations - 1620
Manda E. Gent is an academic researcher from University of Manchester. The author has contributed to research in topics: Gene & Nucleic acid sequence. The author has an hindex of 11, co-authored 17 publications receiving 1601 citations.
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Journal ArticleDOI
The complete DNA sequence of yeast chromosome III.
Stephen G. Oliver,Q. J. M. van der Aart,M. L. Agostoni-Carbone,Michel Aigle,Lilia Alberghina,Despina Alexandraki,G. Antoine,Rashida Anwar,Juan P. G. Ballesta,Paule Bénit,Gilbert Berben,Elisabetta Bergantino,N. Biteau,P. A. Bolle,Monique Bolotin-Fukuhara,Anthony G. A. Brown,Alistair J. P. Brown,J. M. Buhler,C. Carcano,Giovanna Carignani,Håkan Cederberg,R. Chanet,Roland Contreras,Marc Crouzet,B. Daignan-Fornier,E. Defoor,M. Delgado,Jan Demolder,C. Doira,Evelyne Dubois,Bernard Dujon,A. Düsterhöft,D. Erdmann,M. Esteban,F. Fabre,Cécile Fairhead,Gérard Faye,Horst Feldmann,Walter Fiers,M. C. Francingues-Gaillard,L. Franco,Laura Frontali,H. Fukuhara,L. J. Fuller,P. Galland,Manda E. Gent,D. Gigot,Véronique Gilliquet,Glansdorff Nn,André Goffeau,M. Grenson,P. Grisanti,Leslie A. Grivell,M. de Haan,M. Haasemann,D. Hatat,Janet Hoenicka,Johannes H. Hegemann,C. J. Herbert,François Hilger,Stefan Hohmann,Cornelis P. Hollenberg,K. Huse,F. Iborra,K. J. Indje,K. Isono,C. Jacq,M. Jacquet,C. M. James,J. C. Jauniaux,Y. Jia,Alberto Jiménez,A. Kelly,U. Kleinhans,P Kreisl,G. Lanfranchi,C Lewis,C. G. vanderLinden,G Lucchini,K Lutzenkirchen,M.J. Maat,L. Mallet,G. Mannhaupet,Enzo Martegani,A. Mathieu,C. T. C. Maurer,David J. McConnell,R. A. McKee,F. Messenguy,Hans-Werner Mewes,Francis Molemans,M. A. Montague,M. Muzi Falconi,L. Navas,Carol S. Newlon,D. Noone,C. Pallier,L. Panzeri,Bruce M. Pearson,J. Perea,Peter Philippsen,A. Pierard,Rudi J. Planta,Paolo Plevani,B. Poetsch,Fritz M. Pohl,B. Purnelle,M. Ramezani Rad,S. W. Rasmussen,A. Raynal,Miguel Remacha,P. Richterich,Aki Roberts,F. Rodriguez,E. Sanz,I. Schaaff-Gerstenschlager,Bart Scherens,Bertold Schweitzer,Y. Shu,J. Skala,Piotr P. Slonimski,F. Sor,C. Soustelle,R. Spiegelberg,Lubomira Stateva,H. Y. Steensma,S. Steiner,Agnès Thierry,George Thireos,Maria Tzermia,L. A. Urrestarazu,Giorgio Valle,I. Vetter,J. C. van Vliet-Reedijk,Marleen Voet,Guido Volckaert,P. Vreken,H. Wang,John R. Warmington,D. von Wettstein,Barton Luke Wicksteed,C. Wilson,H. Wurst,G. Xu,A. Yoshikawa,Friedrich K. Zimmermann,J. G. Sgouros +146 more
TL;DR: The entire DNA sequence of chromosome III of the yeast Saccharomyces cerevisiae has been determined, which is the first complete sequence analysis of an entire chromosome from any organism.
Journal ArticleDOI
Complete Dna-Sequence Of Yeast Chromosome-Xi
Bernard Dujon,Despina Alexandraki,Bruno André,W. Ansorge,Victoriano Baladrón,Juan P. G. Ballesta,Andrea Banrevi,P. A. Bolle,Monique Bolotin-Fukuhara,Peter Bossier,Germán Bou,J. Boyer,M. J. Buitrago,Geneviève Chéret,Laurence Colleaux,B. Dalgnan-Fornier,F. del Rey,Caroline Dion,H. Domdey,A. Düsterhöft,S. Düsterhus,K. D. Entian,Holger Erfle,Pedro F. Esteban,Heidi Feldmann,L. Fernandes,G. M. Fobo,C. Fritz,Hiroshi Fukuhara,C. Gabel,L. Gaillon,J. M. Carcia-Cantalejo,José J. García-Ramírez,Manda E. Gent,Marjan Ghazvini,Marjan Ghazvini,André Goffeau,A. Gonzaléz,Dietmar Grothues,Paulo Guerreiro,Johannes H. Hegemann,N. Hewitt,François Hilger,Cornelis P. Hollenberg,O. Horaitis,O. Horaitis,Keith J. Indge,Alain Jacquier,C. M. James,J. C. Jauniaux,J. C. Jauniaux,A. Jimenez,H. Keuchel,L. Kirchrath,K. Kleine,Peter Kötter,Pierre Legrain,S. Liebl,Edward J. Louis,A. Maia e Silva,Christian Marck,A.-L. Monnier,D. Mostl,Sylke Müller,B. Obermaier,Stephen G. Oliver,C. Pallier,Steve Pascolo,Steve Pascolo,Friedhelm Pfeiffer,Peter Philippsen,Rudi J. Planta,Fritz M. Pohl,Thomas Pohl,Regina Pohlmann,Daniel Portetelle,Bénédicte Purnelle,V. Puzos,M. Ramezani Rad,S. W. Rasmussen,Miguel Remacha,José L. Revuelta,Guy-Franck Richard,Martin Rieger,Claudina Rodrigues-Pousada,Matthias Rose,Thomas Rupp,Maria A. Santos,Christian Schwager,Christoph Wilhelm Sensen,J. Skala,J. Skala,Helena Soares,Frédéric Sor,J. Stegemann,Hervé Tettelin,Alain R. Thierry,M. Tzermia,L. A. Urrestarazu,L Van Dyck,J. C. van Vliet-Reedijk,Michèle Valens,M. Vandenbo,C. Vilela,Stephan Vissers,D. von Wettstein,H. Voss,Stefan Wiemann,G. Xu,Jürgen Zimmermann,M. Haasemann,I. Becker,Hans-Werner Mewes +112 more
TL;DR: The complete DNA sequence of the yeast Saccharomyces cerevisiae chromosome XI has been determined, and the 666,448-base-pair sequence has revealed general chromosome patterns.
Journal ArticleDOI
Transcriptome Analysis of Recombinant Protein Secretion by Aspergillus nidulans and the Unfolded-Protein Response In Vivo
Andrew H. Sims,Manda E. Gent,Karin Lanthaler,Nigel Dunn-Coleman,Stephen G. Oliver,Geoffrey D. Robson +5 more
TL;DR: The effects of recombinant protein secretion on gene expression levels in Aspergillus nidulans are reported by directly comparing a bovine chymosin-producing strain with its parental wild-type strain in continuous culture by using expressed sequence tag microarrays.
Journal ArticleDOI
Comparative genomic hybridization provides new insights into the molecular taxonomy of the Saccharomyces sensu stricto complex.
Laura C. Edwards-Ingram,Manda E. Gent,David C. Hoyle,Andrew Hayes,Lubomira Stateva,Stephen G. Oliver +5 more
TL;DR: This work exploiting microarray technology to construct a molecular phylogeny for the Saccharomyces sensu stricto complex of yeast species, which is based on all of the protein-encoding genes revealed by the complete genome sequence of the paradigmatic species, S. cerevisiae, and shows that it can identify and analyze individual ORF traits and interpret the results to give a detailed explanation of evolutionary events underlying the phylogeny.
Journal ArticleDOI
Differential expression of multiple exo-cellobiohydrolase I-like genes in the lignin-degrading fungus Phanerochaete chrysosporium.
TL;DR: The genome of Phanerochaete chrysosporium strain ME446 contains multiple, non‐allelic, cellobiohydrolase I (CSHI)‐like sequences, at least two of which are expressed in a cellulose‐dependent manner, raising the possibility that subtly different protein products may be expressed from a common gene.