Maize Genetics Cooperation Newsletter vol 86 2012

 

Dickinson, North Dakota, USA

 

Using Ga2s to limit undesirable fertilization in commercial organic maize

 

F. Kutka, Seed We Need Project

 

            There is interest in organic maize that would not cross with transgenic varieties, and traits that prevent unwanted crossing are well known.  Gametophytic cross incompatibility was first noticed in popcorn that would set little seed if pollinated by dent corn pollen (Thomas 1955).  This trait is controlled by Ga1s (Neuffer et al., 1997).  Most maize cannot pollinate such lines, although there are a few white and yellow dent lines in the USA with the trait (Kutka, 2009; Poneleit, 2000).  Zeigler and Ashman (1994) reported that the trait is used to protect popcorn.

            Ga1s works because plants with this trait have silks that do not support normal pollen tube growth for pollen carrying the ga allele.  Lausser et al. (2010) reported 0-5% of ga pollen tubes growing 8 cm into silks of homozygous Ga1s plants with most growing no more than 2 cm.  Dent outcrosses are usually low in popcorn fields due to cross incompatibility and the abundance of more competitive Ga1s pollen in the popcorn fields (Zeigler and Ashman, 1994).

            Tcb1s and Ga2s are gametophytic cross incompatibility alleles from teosinte that have been crossed into field corn lines (Kermicle and Evans 2010; Evans and Kermicle 2001).  These genes work in a similar fashion to Ga1s and normal dent lines in the USA are ga2 ga2 and tcb1 tcb1 in genotype.  Both genes could reduce undesirable outcrossing in commercial maize.

            Lines carrying Ga2s from the Maize Genetic Stocks Center were used as donor parents in 2011 in a backcrossing project funded in part by the Organic Farming Research Foundation.  Recurrent parents include flint, Oh43, W153R, Mo17, Iodent, B14, and B73 types.  Ga2s is being crossed into these lines following methods developed by popcorn breeders for Ga1s (Zeigler and Ashman, 1994; Thomas, 1955).  At the end, plants homozygous for Ga2s will be identified by pollinating with pollen from a blue or purple seeded line on one day followed by selfing the next day.  Those with strong resistance to outcrossing should have few or no colored kernels at harvest and will be released to the public, although new breeding lines carrying Ga2s in recurrent parent cytoplasms should be ready for release to breeders and researchers late in 2012.

 

References

 

Evans, M.M.S., and J.L. Kermicle.  2001.  Teosinte crossing barrier 1, a locus governing hybridization of teosinte with maize.  Theor. Appl. Genet. 103:259-265.  Available online: http://www.springerlink.com/content/6avefqvt9c1frcej/ (accessed 20 September 2011).

Kermicle, J.L., and M.M.S. Evans.  2010.  The Zea mays sexual incompatibility gene ga2: naturally occurring alleles, their distribution, and role in reproductive isolation.  Journal of Heredity doi:10.1093/jhered/esq090.  Available online: http://jhered.oxfordjournals.org/content/early/2010/08/07/jhered.esq090.full.pdf  (accessed 20 September 2011).

Kutka, F.J.  2009.  Release of populations carrying Ga1s.  Maize Genetics Cooperation Newsletter (http://www.agron.missouri.edu/mnl/84/PDF/20kutka.pdf).

Lausser, A., I. Kliwer, K. Srilunchang, and T. Dresselhaus.  2010.  Sporophytic control of pollen tube growth and guidance in maize.  J. Exp. Bot. 61(3):673-682.

Neuffer, M.G., E.H. Coe, and S.R. Wessler.  1997.  Mutants of maize.  Cold Spring Harbor Laboratory Press, Plainview, NY, USA.

Poneleit, C.G.  2000.  Breeding white endosperm corn.  Chapter 8 in Hallauer, A.R. (ed.).  Specialty Corns, 2nd Ed.  CRC Press, Boca Raton.

Thomas, W.I.  1955.  Transferring the Gas factor for dent incompatibility to dent compatible lines of popcorn. Agron. J. 47:440-441.

Zeigler, K.E., and B. Ashman.  1994.  Popcorn.  Chapter 7, pp. 189-223 in, Hallauer, A.R. (ed.).  Specialty Corns.  CRC Press, Boca Raton.

 

Please Note: Notes submitted to the Maize Genetics Cooperation Newsletter may be cited only with consent of authors.