The phenylpropanoid pathway and plant defence—a genomics perspective RA Dixon, L Achnine, P Kota, CJ Liu, MS Reddy, L Wang Molecular Plant Pathology 3 (5), 371-390, 2002 | 1544 | 2002 |
The genome of the model beetle and pest Tribolium castaneum S Richards, RA Gibbs, GM Weinstock, SJ Brown, R Denell, RW Beeman, ... Nature 452 (7190), 949-955, 2008 | 1433 | 2008 |
The WRKY transcription factor superfamily: its origin in eukaryotes and expansion in plants Y Zhang, L Wang BMC Evolutionary Biology 5 (1), 1, 2005 | 782 | 2005 |
BindN: a web-based tool for efficient prediction of DNA and RNA binding sites in amino acid sequences L Wang, SJ Brown Nucleic acids research 34 (suppl 2), W243-W248, 2006 | 489 | 2006 |
Tall fescue EST-SSR markers with transferability across several grass species MC Saha, MAR Mian, I Eujayl, JC Zwonitzer, L Wang, GD May Theoretical and Applied Genetics 109 (4), 783-791, 2004 | 450 | 2004 |
Medicago truncatula EST-SSRs reveal cross-species genetic markers for Medicago spp. I Eujayl, MK Sledge, L Wang, GD May, K Chekhovskiy, JC Zwonitzer, ... Theoretical and Applied Genetics 108 (3), 414-422, 2004 | 393 | 2004 |
Mapping the proteome of barrel medic (Medicago truncatula) BS Watson, VS Asirvatham, L Wang, LW Sumner Plant Physiology 131 (3), 1104-1123, 2003 | 309 | 2003 |
The MITE family Heartbreaker (Hbr): molecular markers in maize AM Casa, C Brouwer, A Nagel, L Wang, Q Zhang, S Kresovich, ... Proceedings of the National Academy of Sciences 97 (18), 10083-10089, 2000 | 291 | 2000 |
Metabolomics spectral formatting, alignment and conversion tools (MSFACTs) AL Duran, J Yang, L Wang, LW Sumner Bioinformatics 19 (17), 2283-2293, 2003 | 256 | 2003 |
BindN+ for accurate prediction of DNA and RNA-binding residues from protein sequence features L Wang, C Huang, MQ Yang, JY Yang BMC Systems Biology 4 (1), S3, 2010 | 228 | 2010 |
Sequence feature-based prediction of protein stability changes upon amino acid substitutions S Teng, AK Srivastava, L Wang BMC genomics 11 (2), S5, 2010 | 130 | 2010 |
Prediction of lncRNA subcellular localization with deep learning from sequence features BL Gudenas, L Wang Scientific Reports 8, 16385, 2018 | 124 | 2018 |
Prediction of DNA-binding residues from protein sequence information using random forests L Wang, MQ Yang, JY Yang Bmc Genomics 10 (1), S1, 2009 | 109 | 2009 |
Role of mRNA Secondary Structure in Translational Repression of the Maize Transcriptional ActivatorLc L Wang, SR Wessler Plant Physiology 125 (3), 1380-1387, 2001 | 102 | 2001 |
Inefficient reinitiation is responsible for upstream open reading frame–mediated translational repression of the maize R gene L Wang, SR Wessler The Plant Cell 10 (10), 1733-1745, 1998 | 102 | 1998 |
Aphid feeding activates expression of a transcriptome of oxylipin-based defense signals in wheat involved in resistance to herbivory CM Smith, X Liu, LJ Wang, X Liu, MS Chen, S Starkey, J Bai Journal of chemical ecology 36 (3), 260-276, 2010 | 99 | 2010 |
Computational analysis of missense mutations causing Snyder‐Robinson syndrome Z Zhang, S Teng, L Wang, CE Schwartz, E Alexov Human mutation 31 (9), 1043-1049, 2010 | 93 | 2010 |
BeetleBase: the model organism database for Tribolium castaneum L Wang, S Wang, Y Li, MSR Paradesi, SJ Brown Nucleic acids research 35 (suppl 1), D476-D479, 2007 | 84 | 2007 |
Comparative analysis of expressed sequences reveals a conserved pattern of optimal codon usage in plants L Wang, MJ Roossinck Plant molecular biology 61 (4), 699-710, 2006 | 84 | 2006 |
The novel lncRNA lnc-NR2F1 is pro-neurogenic and mutated in human neurodevelopmental disorders CE Ang, Q Ma, OL Wapinski, SH Fan, RA Flynn, QY Lee, B Coe, ... Elife 8, e41770, 2019 | 71 | 2019 |