Results 151 to 160 of about 12,090,697 (382)

Cosmid Cloning of Five \u3cem\u3eZymomonas trp\u3c/em\u3e Genes by Complementation of \u3cem\u3eEscherichia coli\u3c/em\u3e and \u3cem\u3ePseudomonas putida trp\u3c/em\u3e Mutants [PDF]

, 1988
A library of Zymomonas mobilis genomic DNA was constructed in the broad-host-range cosmid pLAFR1. The library was mobilized into a variety of Escherichia coli and Pseudomonas putida trp mutants by using the helper plasmid pRK2013. Five Z.
Eddy, Christina Kay, Noel, K. Dale, Smith, Oliver H.   +2 more
core   +1 more source

Massively parallel reporter assay confirms regulatory potential of hQTLs and reveals important variants in lupus and other autoimmune diseases

HGG Advances
Summary: We designed a massively parallel reporter assay (MPRA) in an Epstein-Barr virus transformed B cell line to directly characterize the potential for histone post-translational modifications, i.e., histone quantitative trait loci (hQTLs ...
Yao Fu, Jennifer A. Kelly, Jaanam Gopalakrishnan, Richard C. Pelikan, Kandice L. Tessneer, Satish Pasula, Kiely Grundahl, David A. Murphy, Patrick M. Gaffney   +8 more
doaj   +1 more source

Linked dimers of the AAA+ ATPase Msp1 reveal energetic demands and mechanistic plasticity for substrate extraction from lipid bilayers

FEBS Letters, EarlyView.
Cells must clear mislocalized or faulty proteins from membranes to survive. The AAA+ ATPase Msp1 performs this task, but dissecting how its six subunits work together is challenging. We engineered linked dimers with varied numbers of functional subunits to reveal how Msp1 subunits cooperate and use energy to extract proteins from the lipid bilayer ...
Deepika Gaur, Brian Acquaviva, Baylee A. Smith, Nathan Walker, Isabella Walter, Matthew L. Wohlever   +5 more
wiley   +1 more source

DIFFERENTIAL ACTION OF THE SUGARY GENE IN MAIZE ON TWO ALTERNATIVE CLASSES OF MALE GAMETOPHYTES [PDF]

, 1927
R. A. Brink, C. R. Burnham
openalex   +1 more source

Breast Cancer Risk Genes - Association Analysis in More than 113,000 Women.

New England Journal of Medicine, 2021
L. Dorling, S. Carvalho, Jamie Allen, A. González-Neira, C. Luccarini, Cecilia Wahlström, K. Pooley, M. Parsons, Cristina Fortuno, Qin Wang, M. Bolla, J. Dennis, R. Keeman, M. Alonso, Nuria Blanco Alvarez, B. Herráez, V. Fernández, R. Núñez-Torres, A. Osorio, Jeanette Valcich, Min Li, Therese Törngren, P. Harrington, C. Baynes, Don M. Conroy, B. Decker, L. Fachal, N. Mavaddat, T. Ahearn, K. Aittomäki, N. Antonenkova, N. Arnold, P. Arveux, M. Ausems, P. Auvinen, H. Becher, M. Beckmann, S. Behrens, M. Bermisheva, K. Białkowska, C. Blomqvist, N. Bogdanova, Nadja Bogdanova-Markov, S. Bojesen, B. Bonanni, A. Børresen-Dale, H. Brauch, M. Bremer, I. Briceño, T. Brüning, B. Burwinkel, D. Cameron, N. Camp, A. Campbell, Á. Carracedo, J. Castelao, Melissa H. Cessna, S. Chanock, H. Christiansen, J. Collée, E. Cordina-Duverger, S. Cornelissen, K. Czene, T. Dörk, A. Ekici, C. Engel, M. Eriksson, P. Fasching, J. Figueroa, H. Flyger, A. Försti, M. Gabrielson, M. Gago-Domínguez, V. Georgoulias, F. Gil, G. Giles, G. Glendon, E. García, G. G. Alnæs, P. Guénel, A. Hadjisavvas, L. Haeberle, E. Hahnen, P. Hall, U. Hamann, E. Harkness, Jaana M. Hartikainen, M. Hartman, Wei He, B. Heemskerk-Gerritsen, P. Hillemanns, F. Hogervorst, A. Hollestelle, W. Ho, M. Hooning, A. Howell, K. Humphreys, Faiza Idris, A. Jakubowska, A. Jung, P. Kapoor, M. Kerin, E. Khusnutdinova, Sung-Won Kim, Y. Ko, V. Kosma, V. Kristensen, K. Kyriacou, Inge M M Lakeman, Jong Won Lee, M. H. Lee, Jingmei Li, A. Lindblom, W. Lo, M. Loizidou, A. Lophatananon, J. Lubiński, R. MacInnis, Michael J. Madsen, A. Mannermaa, M. Manoochehri, S. Manoukian, S. Margolin, M. Martínez, T. Maurer, D. Mavroudis, C. Mclean, A. Meindl, A. Mensenkamp, K. Michailidou, N. Miller, N. A. Mohd Taib, K. Muir, A. Mulligan, H. Nevanlinna, W. Newman, B. Nordestgaard, P. Ng, J. Oosterwijk, Sue-Kyung Park, T. Park-Simon, J. I. Peŕez, P. Peterlongo, D. Porteous, Karolina Prajzendanc, D. Prokofyeva, P. Radice, Muhammad Abo ul Hassan Rashid, V. Rhenius, M. Rookus, T. Rüdiger, E. Saloustros, E. Sawyer, R. Schmutzler, A. Schneeweiss, P. Schürmann, M. Shah, C. Sohn, M. Southey, H. Surowy, Maija T. Suvanto, Somchai Thanasitthichai, I. Tomlinson, Diana Torres, Thérèse Truong, M. Tzardi, Yana Valova, C. V. van Asperen, R. V. van Dam, A. V. D. van den Ouweland, L. E. van der Kolk, Elke M. van Veen, Camilla Wendt, Justin A. Williams, Xiaohong R. Yang, S. Yoon, M. P. Zamora, D. Evans, M. de la Hoya, J. Simard, A. Antoniou, Å. Borg, I. Andrulis, J. Chang-Claude, M. García-Closas, G. Chenevix-Trench, R. Milne, P. Pharoah, M. Schmidt, A. Spurdle, M. Vreeswijk, J. Benítez, A. Dunning, A. Kvist, S. Teo, P. Devilee, D. Easton   +196 more
semanticscholar   +1 more source

Organoids in pediatric cancer research

FEBS Letters, EarlyView.
Organoid technology has revolutionized cancer research, yet its application in pediatric oncology remains limited. Recent advances have enabled the development of pediatric tumor organoids, offering new insights into disease biology, treatment response, and interactions with the tumor microenvironment.
Carla Ríos Arceo, Jarno Drost
wiley   +1 more source

Erratum to: Genes and Environment, Vol. 39

Genes and Environment, 2017
Genes and Environment
doaj   +1 more source

Experimental Studies of the Distribution of Gene Frequencies in Very Small Populations of Drosophila melanogaster: I. Forked [PDF]

, 1954
Warwick Estevam Kerr, Sewall Wright
openalex   +1 more source

Reciprocal control of viral infection and phosphoinositide dynamics

FEBS Letters, EarlyView.
Phosphoinositides, although scarce, regulate key cellular processes, including membrane dynamics and signaling. Viruses exploit these lipids to support their entry, replication, assembly, and egress. The central role of phosphoinositides in infection highlights phosphoinositide metabolism as a promising antiviral target.
Marie Déborah Bancilhon, Bruno Mesmin
wiley   +1 more source

FIRST-CHROMOSOME GENES IN THE TOMATO [PDF]

, 1932
E. W. Lindstrom
openalex   +1 more source