Sequence, assembly and annotation of the maize W22 genome

Authors: Andorf, Carson; AHEM, KEVIN - Cornell University; BAI, FANG - University Of Florida; BARAD, OMER - Nrgene; BARBAZUK, BRAD - University Of Florida; BASS, HANK - Florida State University; BARUCH, KOBI - Nrgene; BEN-ZVI, GIL - Nrgene; Buckler, Edward - Ed; BUKOWSKI, ROBERT - Cornell University; DAVENPORT, RUTH - University Of Florida; DOONER, HUGO - Rutgers University; HE DU, LIMEI - Rutgers University; DU, CHUNGUANG - Montclair State University; EASTERLING, KATHERLINE - Florida State University; GAULT, CHRISTINE - Cornell University; GUAN, JIAHN-CHOU - University Of Florida; JANDER, GEORG - Boyce Thompson Institute; JIAO, YINGPING - Cold Spring Harbor Laboratory; KOCH, KAREN - University Of Florida; KOL, GUY - Nrgene; KUDO, TORU - University Of Florida; LI, QING - University Of Minnesota; LU, FEI - Cornell University; MAYFIELD-JONES, DUSTIN - Danforth Plant Science Center; MEI, WENBIN - University Of Florida; MCCARTY, DON - University Of Florida; Portwood, John; RONEN, GIL - Nrgene; SETTLES, MARK - University Of Florida; SHEM-TOV, DORON - Nrgene; SOIFER, ILYA - Nrgene; SPRINGER, NATHAN - University Of Minnesota; SUZUKI, MASAHARU - University Of Florida; VERA, DANIEL - Florida State University; VOLLBRECHT, ERIK - Iowa State University; VREBALOV, JULIA - Boyce Thompson Institute; Ware, Doreen; WIMALANATHAN, KOKULAPALAN - Iowa State University; XIONG, WENWEI - Montclair State University; BRUTNELL, THOMAS - Danforth Plant Science Center

Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: 1/16/2016
Publication Date: 3/17/2016
Citation: Andorf, C.M., Ahem, K., Bai, F., Barad, O., Barbazuk, B.W., Bass, H.W., Baruch, K., Ben-Zvi, G., Buckler Iv, E.S., Bukowski, R., Davenport, R., Dooner, H.K., He Du, L., Du, C., Easterling, K.A., Gault, C.M., Guan, J., Jander, G., Jiao, Y., Koch, K., Kol, G., Kudo, T., Li, Q., Lu, F., Mayfield-Jones, D., Mei, W., McCarty, D., Portwood II, J.L., Ronen, G., Settles, M.A., Shem-Tov, D., Soifer, I., Springer, N.M., Suzuki, M., Vera, D., Vollbrecht, E., Vrebalov, J.T., Ware, D., Wimalanathan, K., Xiong, W., Brutnell, T. 2016. Sequence, assembly and annotation of the maize W22 genome. In: 58th Annual Maize Genetics Conference, March 17-20, 2016, Jacksonville, Florida. p. 91.

Interpretive Summary:

Technical Abstract: Since its adoption by Brink and colleagues in the 1950s and 60s, the maize W22 inbred has been utilized extensively to understand fundamental genetic and epigenetic processes such recombination, transposition and paramutation. To maximize the utility of W22 in gene discovery, we have Illumina sequencing technologies and de novo assembled a color-converted W22 reference genome. Significant structural heterogeneity exists in comparisons to the B73 reference genome at multiple scales, from transposon composition and copy number variation to single nucleotide polymorphisms. The generation of this high quality reference genome has enabled the accurate placement of several thousand Mutator and Dissociation transposable elements from community transposon mutagenesis projects that enable the use of both engineered and endogenous elements for reverse and forward genetics in maize. Annotation of the genome has been informed by RNAseq analysis, differential nuclease sensitivity profiling and bisulfite sequencing to fine map open reading frames, open chromatin sites, and DNA methylation profiles, respectively. Several independent assessments of the quality of the genome assembly including comparisons to high resolution genetic maps, Sanger-sequenced regions of high complexity and transposon site insertion mapping coupled with the integration of global epigenetic and gene expression annotation reveal that the W22 genome now represents the highest quality maize reference genome in the public domain.