Biomedical Engineering Reference
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References
1. Palmer RF. The days when Oswego was a Major Great Lakes Port. Oswego Historian. 2010.
Last accessed 20 Mar 2014.
2. Collins GN. A new type of Indian Corn from China. Bur Plant Ind (Bull). 1909;161:1-30.
3. Li Y, Shi YS, Cao YS, Wang TY. A phenotypic diversity analysis of maize germplasm
preserved in China. Maydica. 2002;47(2):107-14.
4. Tian M, Tan G, Liu Y, Rong T, Huang Y. Origin and evolution of Chinese waxy maize:
evidence from the Globulin-1 gene. Genet Res Crop Evol. 2009;56(2):247-55.
5. Collins GN, Kempton JH. Inheritance of endosperm texture in sweet
waxy hybrids of maize.
Am Nat. 1914;48(574):584-94.
6. Bregger T. Linkage in maize:
the C aleurone factor and waxy endosperm. Am Nat.
1918;52:57-61.
7. Weatherwax P. A rare carbohydrate in waxy maize. Genetics. 1922;7:568-72.
8. CNN. “Corn Products (Fortune 1938).” FORTUNE Features RSS. Fortune, 1938. Web. 20 Mar
2014.CNN Money, Business New Blog. Fortune 1938 Retrospective Review, “Corn Prod-
Accessed 20 Mar 2014.
9. Tapicorn
. Bear Hybrids Corn Company, Decatur; 1947.
10. Vineyard ML, Bear RP, MacMasters MM, Deatherage WL. Development of “amylomaize” -
corn hybrids with high amylose starch: I. Genetic considerations. Agron J. 1958;50(10):595-8.
11. Bear RP, Vineyard ML, MacMasters MM, Deatherage WL. Development of “amylomaize” -
corn hybrids with high amylose starch: II. Results of breeding efforts. Agron J. 1958;50
(10):598-602.
12. Foulon J. National Starch and Chemical Company: the first century. Saddle Brook, New
Jersey: Raad Graphics Arts Incorporated, 2004.
13. US Grain Council. Value enhanced corn report 2005/6. 2006.
http://www.agmrc.org/media/
cms/USGC_Value_Enhanced_Corn_Report_200_08C7959C2B1E6.pdf
. Accessed 20 Mar
2014.
14. Klimek-Kopyra A, Szmigiel A, Zaj˛c T, Kidacka A. Some aspects of cultivation and utiliza-
tion of waxy maize (
Zea mays
L. ssp. ceratina). Acta Agrobot. 2012;65(3):3-12.
15. Bock AK, Lheureux K, Libeau-Dulos M, Nilsagard H, Rodriguez-Cerezo E. Report “Scenarios
for co-existence of genetically modified, conventional and organic crops. (IPTS-JRC); 2002.
16. FAOSTAT. “GeoHive.” Maize (corn) production. GEOHIVE. 2010.
http://www.geohive.
com/charts/ag_maize.aspx
.
Accessed 20 Mar 2014.
17. Tsai CY. The function of the waxy locus in starch synthesis in maize endosperm. Biochem
Genet. 1974;11(2):83-96.
18. Nelson OE, Chourey PS, Chang MT. Nucleoside diphosphate sugar-starch glucosyl transferase
activity of wx starch granules. Plant Physiol. 1978;62(3):383-6.
19. Boyer CD, Preiss J. Evidence for independent genetic control of the multiple forms of maize
endosperm branching enzymes and starch synthases. Plant Physiol. 1981;67(6):1141-5.
20. Blanco M. 2010 annual report of the GEM project. Germplasm enhancement of maize. 2010.
http://www.public.iastate.edu/~usda-gem/
.
Last accessed 20 Mar 2014.
21. Shure M, Wessler S, Fedoroff N. Molecular identification and isolation of the
Waxy
locus in
maize. Cell. 1983;35(1):225-33.
22. Wessler SR, Varagona MJ. Molecular basis of mutations at the waxy locus of maize:
correlation with the fine structure genetic map. Proc Natl Acad Sci. 1985;82(12):4177-81.
23. Campbell MR, Jane JL, Pollak L, Blanco M, O'Brien A. Registration of maize germplasm line
GEMS-0067. J Plant Reg. 2007;1(1):60-1.
24. Chen T, Ning L, Liu X, Cui D, Zhang H, Li D,
...
Chen H. Development of functional
molecular markers of I and IIb for the high amylose maize germplasm line GEMS-0067. Crop
Sci 2013; 53(2): 482-90.
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