Biomedical Engineering Reference
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10. Berti MT, Johnson BL. Seed germination response of cuphea to temperature. Ind Crops Prod.
2008;27(1):17-21.
11. Berti MT, Johnson BL, Bradley CA. Emergence of cuphea seeds treated with different
fungicides. Ind Crops Prod. 2008;28(2):184-9.
12. Berti MT, Johnson BL, Henson RA. Seeding depth and soil packing affect pure live seed
emergence of cuphea. Ind Crops Prod. 2008;27(3):272-8.
13. Forcella F, Admundson GB, Gesch RW, Paiernik SK, Davis VM, Phippen WB. Herbicides
tolerated by cuphea (
Cuphea viscossisima x lanceolata
). Weed Technol. 2005;19:861-5.
14. Forcella F, Papiernik SK, Gesch RW. Cuphea tolerates clopyralid. Weed Technol.
2011;25:511-3.
15. Berti MT, Johnson BL, Gesch RW, Forcella F. Cuphea nitrogen uptake and seed yield
response to nitrogen. Agron J. 2008;100(3):628-34.
16. Gesch RW, Cermak SC, Isbell TA, Forcella F. Seed yield and oil content of cuphea as affected
by harvest date. Agron J. 2005;97:817-22.
17. Forcella F, Spokas K, Gesch RW, Isbell T, Archer D. Swathing and windrowing as harvests
aids for cuphea. Agron J. 2007;99:415-8.
18. Berti MT, Johnson BL, Gesch RW, Forcella F. Cuphea seed yield response to harvest methods
applied on different dates. Agron J. 2008;100(4):1138-44.
19. Graham SA. Cuphea: a new plant source of medium-chain fatty acids. Crit Rev Food Sci Nutr.
1989;28:139-73.
20. Knapp SJ. Breakthroughs towards the domestication of
Cuphea
. In: Janick J, Simon J, editors.
New crops. New York: Wiley; 1993. p. 372-9.
21. Graham SA, Kleiman R. Seed lipids of the Lythraceae. Biochem Syst Ecol. 1987;15:433-9.
22. Phippen WB, Isbell TA, Phippen MA. Total seed oil and fatty acid methyl ester contents of
cuphea accessions. Ind Crops Prod. 2006;24:52-9.
23. Graham SA, Kleiman R. Composition of seeds oils in some Latin American Cuphea
(Lythraceae). Ind Crops Prod. 1992;1:31-4.
24. Kleiman R. Chemistry of new industrial oilseed crops. In: Janick J, Simon JE, editors.
Advances in new crops. Portland: Timber Press; 1990. p. 196-203.
25. Forcella F, Gesch RW, Isbell TA. Seed yield, oil, and fatty acids of cuphea in the Northwestern
Corn Belt. Crop Sci. 2005;45:2195-202.
26. Evangelista RL, Manthey LK. Characterization of cuphea PSR23 seed oil. In: 6th National
Symposium: creating markets for economic development of new crops and new uses; Oct 14-
18. San Diego: Association for the Advancement of Industrial Crops (AAIC); 2006: 86.
27. Slabaugh MB, Tai H, Jaworski J, Knapp S. cDNA clones encoding
-ketoacyl-acylcarrier
protein synthase III from
Cuphea wrightii
. Plant Physiol. 1995;108:443-4.
28. Schutt BS, Abbadi A, Loddenkotter B, Brummel M, Spener F.
β
-ketoacyl-acyl carrier protein
synthase IV: a key enzyme for regulation of medium-chain fatty acid synthesis in
Cuphea
lanceolata
seeds. Planta. 2002;215:847-54.
29. Schutt BS, Brummel M, Schuch R, Spener F. The role of acyl carrier protein isoforms from
Cuphea lanceolata
seeds in the-novo biosynthesis of medium chain fatty acids. Planta.
1998;205:263-8.
30. Voetz M, Klein B, Schell J, Topfer R. Three different cDNAs encoding acyl carrier proteins
from
Cuphea lanceolata
. Plant Physiol. 1994;106:785-6.
31. Agricultural Utilization Research Institute. Ag Innovation News. Cuphea: those sticky Amer-
ican plants (Online). 2003. Available at
www.auri.org/news
.
Accessed 5 Dec 2012.
32. Brown JH, Kleiman R, Hill J, Sambasivarao K, Lotts K. Cosmetic and topical compositions
comprising cuphea oil and derivatives thereof. US Patent Application Publication US 2007/
0031354 A1; 2007.
33. Rheins LA, Brown JH, Hill J, Kleiman R. Cosmetic attributes of cuphea oil. In: 6th National
Symposium: creating markets for economic development of new crops and new uses; 2006 Oct
14-18. San Diego: Association for the Advancement of Industrial Crops (AAIC); 2006:17.
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