Discovery of induced point mutations in maize genes by TILLING BJ Till, SH Reynolds, C Weil, N Springer, C Burtner, K Young, E Bowers, ... BMC plant biology 4, 1-8, 2004 | 564 | 2004 |
Granule-bound starch synthase: structure, function, and phylogenetic utility. RJ Mason-Gamer, CF Weil, EA Kellogg Molecular biology and evolution 15 (12), 1658-1673, 1998 | 411 | 1998 |
Cloning of the riboB locus of Aspergillus nidulans CE Oakley, CF Weil, PL Kretz, BR Oakley Gene 53 (2-3), 293-298, 1987 | 168 | 1987 |
The hAT and CACTA Superfamilies of Plant Transposons R Kunze, CF Weil Mobile DNA ii, 565-610, 2007 | 151 | 2007 |
Isolation of mip (Microtubule-Interacting Protein) Mutations of Aspergillus nidulans CF Weil, CE Oakley, BR Oakley Molecular and cellular biology 6 (8), 2963-2968, 1986 | 124 | 1986 |
Transposition of maize Ac/Ds transposable elements in the yeast Saccharomyces cerevisiae CF Weil, R Kunze Nature genetics 26 (2), 187-190, 2000 | 118 | 2000 |
NBS1 is involved in DNA repair and plays a synergistic role with ATM in mediating meiotic homologous recombination in plants WM Waterworth, C Altun, SJ Armstrong, N Roberts, PJ Dean, K Young, ... The Plant Journal 52 (1), 41-52, 2007 | 113 | 2007 |
The effects of plant transposable element insertion on transcription initiation and RNA processing. CF Weil, SR Wessler | 113 | 1990 |
Molecular evidence that chromosome breakage by Ds elements is caused by aberrant transposition. CF Weil, SR Wessler The Plant Cell 5 (5), 515-522, 1993 | 109 | 1993 |
Adjacent sequences influence DNA repair accompanying transposon excision in maize LA Scott, D LaFoe, CF Weil Genetics 142 (1), 237-246, 1996 | 106 | 1996 |
Epigenetic interactions between transposons and genes: lessons from plants C Weil, R Martienssen Current opinion in genetics & development 18 (2), 188-192, 2008 | 100 | 2008 |
Give-and-take: interactions between DNA transposons and their host plant genomes HK Dooner, CF Weil Current opinion in genetics & development 17 (6), 486-492, 2007 | 87 | 2007 |
Structure and comparative analysis of the genes encoding component C of methyl coenzyme M reductase in the extremely thermophilic archaebacterium Methanothermus fervidus CF Weil, DS Cram, BA Sherf, JN Reeve Journal of bacteriology 170 (10), 4718-4726, 1988 | 87 | 1988 |
Comparative analysis of non‐random DNA repair following Ac transposon excision in maize and Arabidopsis TA Rinehart, C Dean, CF Weil The Plant Journal 12 (6), 1419-1427, 1997 | 72 | 1997 |
Getting the point—mutations in maize CF Weil, RA Monde Crop science 47, S-60-S-67, 2007 | 71 | 2007 |
Microhomology-dependent end joining and repair of transposon-induced DNA hairpins by host factors in Saccharomyces cerevisiae J Yu, K Marshall, M Yamaguchi, JE Haber, CF Weil Molecular and Cellular Biology, 2004 | 69 | 2004 |
A Rice Tc1/Mariner-Like Element Transposes in Yeast G Yang, CF Weil, SR Wessler The Plant Cell 18 (10), 2469-2478, 2006 | 65 | 2006 |
Changes in state of the Wx-m5 allele of maize are due to intragenic transposition of Ds. CF Weil, S Marillonnet, B Burr, SR Wessler Genetics 130 (1), 175-185, 1992 | 63 | 1992 |
TILLING in grass species CF Weil Plant physiology 149 (1), 158-164, 2009 | 61 | 2009 |
Genetic determinants for enzymatic digestion of lignocellulosic biomass are independent of those for lignin abundance in a maize recombinant inbred population BW Penning, RW Sykes, NC Babcock, CK Dugard, MA Held, JF Klimek, ... Plant Physiology 165 (4), 1475-1487, 2014 | 60 | 2014 |