Ana səhifə

Squash References

Yüklə 21.48 Kb.
ölçüsü21.48 Kb.

VCR 221/Spring Quarter 2008

Instructor: C.F. Quiros

Squash References
*Bemis, W.P. 1973. Interspecific aneuploidy in Cucurbitae. Genet. Res. 21:221-228.
Bemis, W.P. 1973. Triple haploids in cucurbita. J. Hered. 64:103-104.
Bemis, W.P. 1970. Polyploid hybrids from the cross Cucurbita moschata x C. foetdisima. J. ASHS 95:529-531.
Bezold, Todd N.; Mathews, Dennis; Loy, J. Brent, et al. 2005. Molecular analysis of the hull-less seed trait in pumpkin: expression profiles of genes related to seed coat development, Seed Science Research 15 (3) : 205-217.
Brown RN. Myers JR. 2002 A genetic map of squash (Cucurbita sp.) with randomly amplified polymorphic DNA markers and morphological markers. Journal of the American Society for Horticultural Science. 127(4):568-575.
Cucurbit Genetics Cooperative Rpt., 1979 to present.
Dane, F. 1983. Cucurbits. In: Isozymes in Plant Genetics and Breeding, Part B. Elsevier.
Decker, D.D. 1988. Origin, evolution and systematics of Cucurbita pepo. Econ. Bot. 42:4-15.
Decker, D.D. 1985. Numerical analysis of allozyme variation in Cucurbita pepo. Econ. Bot. 39:300-309.
Decker-Walters, D.S., T.W. Walters, U. Posluszny and P.G. Kevan. 1990. Genealogy and gene flow among annual domesticated species of cucurbita. Canadian J. Botany 68:782-789.
Decker-Walters, DS; Staub, JE; Chung, SM; et al. 2002. Diversity in free-living Populations of Cucurbita pepo (Cucurbitaceae) as assessed by random amplified polymorphic DNA
SYSTEMATIC BOTANY, 27 (1): 19-28.
diToppi, L.S., N. Pecchioni and M. Durante. 1997. Cucurbita pepo L. can be transformed by Agrobacterium rhizogenes. Plant Cell Tissue and Organ Culture 51:89-93.
Dossey, B.F. et al. 1981. Genetic control of gynoecy in Buffalo gourd. J. Hered. 72:335-356.
Ferriol, M; Pico, B; de Cordova, PF; et al. 2004. Molecular diversity of a germplasm collection of squash (Cucurbita moschata) determined by SRAP and AFLP markers CROP SCIENCE, 44 (2): 653-664
Ferriol, M; Pico, B; Nuez, F 2004. Morphological and molecular diversity of a collection of Cucurbita maxima landraces JOURNAL OF THE AMERICAN SOCIETY FOR HORTICULTURAL SCIENCE, 129 (1): 60-69

Francis, R.R. and W.P. Bemis. 1970. A cytomorphological study of male sterility in a mutant of C. maxima. Econ. Bot. 24:325-332.

Fritz, G.J. 1994. Precolumbian Cucurbita argyrosperma ssp. in the Eastern slopes of N. America. Econ. bot. 48:280-292.
Gong L et al. 2008 Microsatellites for the genus cucurbita and SSR-based genetic linkage map for C. pepo. TAG (in press).
Gwanama, C; Labuschagne, MT; Botha, AM.2000 Analysis of genetic variation in

Cucurbita moschata by random amplified polymorphic DNA (RAPD) markers

EUPHYTICA, 113:19-24.
Hurd, P.P. et al. Squash and gourd bees and the origin of the cultivated cucurbitae. Evolution 25:218-234.
IBPGR. 1982. World Genetic Resources for the Cucurbitae. FAO, Rome.
Ignart, F. and N.F. Weeden. 1984. Allozyme variation in cultivars of Cucurbita pepo. Euphytica 33:779-785.
Kelly, R.J. and A. Siegel. 1989. The Cucurbita maxima ribosomal DNA intergenic spacer has a complex structure. Gene 80:239-248.
Kelly, R.J. et al. 1990. Heterogeneity and organization of the ribosomal RNA genes of Cucurbita maxima. Plant Mol. Biol. 14:927-933.
Kirkpatrick, K. and H. Wilson. 1988. Interspecific gene flow in Cucurbita: C. texana vs. C. pepo. Amer. J. Bot. 75:519-527.
Kirkpatrick, K. et al. 1985. Allozyme differentiation in the Cucurbita pepo complex: C. pepo var. medullosa vs. C. texana. Econ. Bot. 39:289-299.
Kurtar ES. Sari N. Abak K.2002. Obtention of haploid embryos and plants through irradiated pollen technique in squash (Cucurbita pepo L.). Euphytica. 127(3):335-344.
Kwon, Yong-Sham; Ryu, Tae Hun; Kim, Chang-Hoon, et al. 2004. A comparative study of the RAPD and SSR markers in establishing a genetic relationship of the various types of Cucurbita. Korean Journal of Genetics 26 (2) : 115-122
Lim, H., I. Gounaris, R.C. Hardison and C.D. Boyer. 1990. Restriction site and genetic map of cucurbita-pepo chloroplast DNA. Current Genetics 18:273-275.
Montes-Hernandez, S; Merrick, LC; Eguiarte, LE 2005. Maintenance of squash (Cucurbita spp.) landrace diversity by farmers' activities in Mexico. GENETIC RESOURCES AND CROP EVOLUTION, 52 (6): 697-707
Montes-Hernandez, S; Eguiarte, LE 2002 Genetic structure and indirect estimates of gene flow in three taxa of Cucurbita (Cucurbitaceae) in western Mexico AMERICAN JOURNAL OF BOTANY, 89 (7): 1156-1163
Mulcahy, D.L. et al. 1981. Gametophytic transcription for acid phosphatases in pollen of Cucurbita species hybrids. J. Hered. 72:353-354.
Muschler, M.A. and C.N. Bush. 1987. Mitochondrial plasmids in related cultivars of crookneck and stable and unstable butternut squash. TAG 75:211-216.
*Nee, M. 1990. The domestication of Cucurbita. Econ. Bot. 44(3 supplement):56-68.
Paris, H.S. and H. Nerson. 1986. Genes for intense fruit pigmentation of squash. J. Hered. 77:403-409.
Paris, H. S. 1996. Summer Squash: History, diversity and distribution. Hort Tech 6:6-13
Paris, H.W. and Y. Burger. 1989. Complementary genes for fruit striping in summer squash. J. Hered. 80:490-493.

Paris, HS.2000. Gene for broad, contiguous dark stripes in cocozelle squash, (Cucurbita pepo).

EUPHYTICA, 115:191-196.

Paris, HS.2000. Quiescent intense (qi): A gene that affects young but not mature fruit color intensity in Cucurbita pepo. J. OF HEREDITY, 91:333-339.

Paris, HS.2000. Paintings (1769-1774) by A. N. Duchesne and the history of Cucurbita pepo.

ANNALS OF BOTANY, 85:815-830.
Paris, H. S. 2003 Assessment of genetic relationships in Cucurbita pepo (Cucurbitaceae) using DNA markers Theoretical and Applied Genetics 106 (6): 971-978
*Paris, Harry S.; Brown, Rebecca Nelson 2005. The genes of pumpkin and squash
Hortscience 40 (6) : 1620-1630

Paris, HS; Burger, Y; Schaffer, AA 2006 Genetic variability and introgression of horticulturally valuable traits in squash and pumpkins of Cucurbita pepo ISRAEL JOURNAL OF PLANT SCIENCES, 54 (3): 223-231
Rahman, M.A. and M.R. Karim. 1997. Effect of NAA, TIBA and GA(3) on growth, sex expression and yield of sweet gourd (Cucurbita moschata (Duch. Ex. Lam.) Bangladesh J. of Bot. 26:191-193.
Rakoczy-Trojanowska, M. and S. Malepszy. 1989. A method for increased plant regeneration from immature F1 and BC1 embryos of Cucurbita maxima x C. pepo hybrids. Plant Cell Rpt. 18:191-194.
Robinson et al. 1976. Genes of the cucurbitae. HortSci. 11:554-558.
Robinson et al. 1970. Promotion of pistillate flowering in cucurbitae by 2-chloroethyl phosphoric acid. Euphytica 19:180-182.
Rodriguez, J.B., E.G. Gros, M.H. Bertoni and P. Cattaneo. The sterols of Cucurbita moschata (Calabacita) seed oil. Lipids 31:1205-1208.
Roy, R.P., S. Saran and B. Dutt. 1991. Cytogenetics of cucurbitaceae. In: Tsuchiya and Gupta (eds.), Chromosome Engineering in Plants, Elsevier.
Rudich, J. et al. 1970. Changed sex expression and possibilities for F1 hybrid seed production in some cucurbits by application of ethrel and alar. Euphytica 19:47-53.
Ruiz, R. and V. Hemleben. 1991. Use of ribosomal DNA spacer probes to distinguish cultivars of Cucurbita pepo L. and other Cucurbitaceae. Euphytica 53:11-17.
*Sanjur OI. Piperno DR. Andres TC. Wessel-Beaver L. 2002. Phylogenetic relationships among domesticated and wild species of Cucurbita (Cucurbitaceae) inferred from a mitochondrial gene: Implications for crop plant evolution and areas of origin. Proceedings of the National Academy of Sciences of the United States of America. 99(1):535-540,
Schaffer, A.A. et al. 1984. Genetic control of plastic carotenoids and transformation in the skin of Cucurbita pepo L. fruit. TAG 68:493-501.
Sinha, U. et al. 1983. Cytogenetics of cucurbits. In: Cytogenetics of Crop Plants, ed. Swaminathane et al. Macmillan India Ltd.
Smith, B.D. 1997. The initial domestication of Cucurbita pepo in the Americas 10,000 years ago. Science 276:932-934.
Taddmor Y et al. 2005 Dual role of the pigmentation gene B in affecting carotenoid and vit E content in squash (C. pepo) mesocarp. J. Agric. Food Chem.. 53:9759-63

Teppner, H.2000. Cucurbita pepo (Cucurbitaceae) - History, seed coat types, thin

coated seeds and their genetics. PHYTON-ANNALES REI BOTANICAE 40:1-42.
Varghese, B.M. 1973. Studies in cytology and evolution of South Indian cucurbitae. Ph.D. thesis, Kerale U., India.
Weeden, N.F. et al. 1986. Identification of two linkage groups in Cucurbita palmata using alien addition lines. HortSci. 21:1431-1433.
Weeden, N.F. and R.W. Robinson. 1986. Allozyme segregation ratios in the interspecific cross Cucurbita maxima x C. ecuadorienses suggests that hybrid breakdown is not caused by minor alterations in chromosome structure. Genetics 114:593-609.
*Whitaker, T.W. and R.W. Robinson. 1986. Squash breeding. In: Breeding Vegetable Crops, ed. M.J. Basset, AVI Publish.
*Whitaker, T.W. and W.P. Bemis. 1975. The origin and evolution of the cultivated cucurbitae. Bull. Tom. Bot. Club 102:363-368.
Whitaker, T.W. and G.N. Davis. Cucurbits: Botany, cultivation and utilization. NY Interscience Publ.
Wilson, H.D. 1990. Gene flow in squash species - domesticated cucurbita species may not represent closed genetic systems. Bioscience 40:449-455.
Wilson, H.D., J. Doebley and M. Duvall. 1992. Chloroplast DNA diversity among wild and cultivated members of Cucurbita (cucurbitaceae). TAG 84:859-865.
Wilson, H.D., R. Lira and I. Rodriguez. 1994. Crop/weed gene flow - Cucurbita argyrosperma huber and C. fraterna L.H. Bailey (Cucurbitaceae). Economic Bot. 48:293-300.
Zraidi, A; Stift, G; Pachner, M; et al.2007 A consensus map for Cucurbita pepo
MOLECULAR BREEDING, 20 (4): 375-388

Verilənlər bazası müəlliflik hüququ ilə müdafiə olunur © 2016
rəhbərliyinə müraciət