van Vliet, G. J. A. and W. D. Meysing. 1974. Inheritance of resistance <strong>to</strong> Pseudoperonospora cubensis Rost. in cucumber (Cucumis sativus L.). Euphytica 23:251-255. van Vliet, G. J. A. and W. D. Meysing. 1977. Relation in the inheritance of resistance <strong>to</strong> Pseudoperonospora cubensis Rost. and Sphaerotheca fuliginea Poll. in cucumber (Cucumis sativus L.). Euphytica 26:793-796. Vishnevetsky, M., M. Ovadis, H. Itzhaki, M. Levy, Y. Libal-Weksler, Z. Adam, and A. Vainstein. 1996. Molecular cloning of a carotenoid-associated protein from Cucumis sativus corollas: homologous genes involved in carotenoid sequestration in chromoplasts. Plant J. 10:1111-1118. Wai, T. and R. Grumet. 1995. Inheritance of resistance <strong>to</strong> the watermelon strain of papaya ringspot virus in the cucumber line TMG-1. HortScience 30:338-340. Wai, T., J. E. Staub, E. Kabelka and R. Grumet. 1997. Linkage analysis of potyvirus resistance alleles in cucumber. J. Heredity. 88: 454-458. Wall, J. R. 1967. Correlated inheritance of sex expression and fruit shape in Cucumis. Euphytica 23:251-255. Walters, S. A., T. C. Wehner, and K. R. Barker. 1996. NC-42 and NC-43: Root-knot nema<strong>to</strong>de-resistant cucumber germplasm. HortScience 31:1246-1247. Walters, S. A., T. C. Wehner, and K. R. Barker. 1997. A single recessive gene for resistance <strong>to</strong> the root-knot nema<strong>to</strong>de (Meloidogyne javanica) in Cucumis sativus var. hardwickii. J. Heredity 88: 66-69. Walters, S. A. and T. C. Wehner. 1998. Independence of the mj nema<strong>to</strong>de resistance gene from 17 gene loci in cucumber. HortScience 33:1050-1052. Wang, Y. J., R. Provvidenti, and R. W. Robinson. 1984. Inheritance of resistance <strong>to</strong> watermelon mosaic virus 1 in cucumber. HortScience 19:587-588. Wang, Y. J., R. Provvidenti, and R. W. Robinson. 1984. Inheritance of resistance in cucumber <strong>to</strong> watermelon mosaic virus. Phy<strong>to</strong>pathology 51:423-428. Wasuwat, S. L. and J. C. Walker. 1961. Inheritance of resistance in cucumber <strong>to</strong> cucumber mosaic virus. Phy<strong>to</strong>pathology 51:423-428. Wehner, T. C. 1993. Gene list update for cucumber. <strong>Cucurbit</strong> Genet. Coop. Rpt. 16: 92-97. Wehner, T. C., J. E. Staub, and C. E. Peterson. 1987. Inheritance of littleleaf and multi-branched plant type in cucumber. <strong>Cucurbit</strong> Genet. Coop. Rpt. 10:33. Wehner, T. C. and Staub, J. E. 1997. Gene list for cucumber. <strong>Cucurbit</strong> Genetics Cooperative Report, 20:66-88. Wehner, T. C., J. S. Liu, and J. E. Staub. 1998a. Two-gene interaction and linkage for bitterfree foliage in cucumber. J. Amer. Soc. Hort. Sci. 123: 401-403. Wehner, T. C., J. E. Staub, and J. S. Liu. 1998b. A recessive gene for revolute cotyledons in cucumber. J. Hered. 89: 86- 87. Welling<strong>to</strong>n, R. 1913. Mendelian inheritance of epidermal characters in the fruit of Cucumis sativus. Science 38:61. Welling<strong>to</strong>n, R. and L. R. Hawthorn. 1928. A parthenocarpic hybrid derived from a cross between and English forcing cucumber and the Arling<strong>to</strong>n White Spine. Proc. Amer. Soc. Hort. Sci. 25:97-100. Whelan, E. D. P. 1971. Golden cotyledon: a radiation-induced mutant in cucumber. HortScience 6:343 (abstract). Whelan, E. D. P. 1972a. A cy<strong>to</strong>genetic study of a radiation-induced male sterile mutant of cucumber. J. Amer. Soc. Hort. Sci. 97:506-509. Whelan, E. D. P. 1972b. Inheritance of a radiation-induced light sensitive mutant of cucumber. J. Amer. Soc. Hort. Sci. 97:765-767. Whelan, E. D. P. 1973. Inheritance and linkage relationship of two radiation-induced seedling mutants of cucumber. Can. J. Genet. Cy<strong>to</strong>l. 15:597-603. Whelan, E. D. P. 1974. Linkage of male sterility, glabrate and determinate plant habit in cucumber. HortScience 9:576- 577. Whelan, E. D. P. and B. B. Chubey. 1973. Chlorophyll content of new cotyledon mutants of cucumber. HortScience 10:267-269. Whelan, E. D. P., P. H. Williams, and A. Abul-Hayja. 1975. The inheritance of two induced cotyledon mutants of cucumber. HortScience 10:267-269. Wilson, J. M. 1968. The relationship between scab resistance and fruit length in cucumber, Cucumis sativus L. M.S. Thesis, Cornell Univ., Ithaca, NY. Winnik, A. G. and L. F. Vetusnjak. 1952. Intervarietal hybridization of cucumber. Agrobiologia 4:125-131. Yamasaki, S., N. Fujii, and H. Takahashi. 2000. The ethylene-regulated expression of CS-ETR2 and CS-ERS genes in cucumber plants and their possible involvement <strong>with</strong> sex expression in flowers. Plant Cell Physiol. 41:608-616. <strong>Cucurbit</strong> Genetics Cooperative Report 24:110-136 (2001) 1<strong>35</strong>
Youngner, V. B. 1952. A study of the inheritance of several characters in the cucumber. Ph.D. Diss. Univ. of Minnesota, St. Paul. Zhang, Q., A. C. Gabert, and J. R. Baggett. 1994. Characterizing a cucumber pollen sterile mutant: inheritance, allelism, and response <strong>to</strong> chemical and environmental fac<strong>to</strong>rs. J. Amer. Soc. Hort. Sci. 119:804-807. Zentgraf, U., M. Ganal, and V. Hemleben. 1990. Length heterogeneity of the rRNA precursor in cucumber (Cucumis sativus). Plant Mol. Bio. 15:465-474. Zijlstra, S. 1987. Further linkage studies in Cucumis sativus L. <strong>Cucurbit</strong> Genet. Coop. Rpt. 10:39. Zijlstra, S. and A. P. M. den Nijs. 1986. Further results of linkage studies in Cucumis sativus L. <strong>Cucurbit</strong> Genet. Coop. Rpt. 9:55. <strong>Cucurbit</strong> Genetics Cooperative Report 24:110-136 (2001) 136
- Page 1 and 2:
Cucurbit Genetics Cooperative Coope
- Page 3 and 4:
The Cucurbit Genetics Cooperative (
- Page 5 and 6:
this would be a welcome benefit to
- Page 7 and 8:
Georgia, Statesboro, GA, “Evaluat
- Page 9 and 10:
http://www.ashs.org/ashspress/ wate
- Page 11 and 12:
Cucurbit Genetics Cooperative Finan
- Page 13 and 14:
Table 1. The composition of culture
- Page 15 and 16:
Prezygotic barriers have previously
- Page 17 and 18:
Cucumber Inbred Line USDA 6632E Jac
- Page 19 and 20:
Multiple Shoot Induction from the S
- Page 21 and 22:
Table 3. Effects of combinations of
- Page 23 and 24:
concentration of NAA (0.1 mg/l) wit
- Page 25 and 26:
eplicate. Shoot differentiation and
- Page 27 and 28:
Table 2. Shoot induction efficiency
- Page 29 and 30:
Figure 1. The viability of Cucumis
- Page 31 and 32:
Gynogenesis in a Dihaploid Line of
- Page 33 and 34:
Resistant Blister Reaction to Powde
- Page 35 and 36:
Table 1. Analysis of variance for p
- Page 37 and 38:
Fusarium Wilt Resistance in Eight I
- Page 39 and 40:
aised PM seedlings and plants, alth
- Page 41 and 42:
Table 1. F2 single factor segregati
- Page 43 and 44:
of the loci (e.g., M7675, U13831, A
- Page 45 and 46:
Table 1. Percentage of RAPD band pr
- Page 47 and 48:
Inodorus Primer Casaba Honeydew Cha
- Page 49 and 50:
Frequency of RAPD Polymorphisms in
- Page 51 and 52:
BC551 76.6 92.9 38.5 20.5 38.9 42.2
- Page 53 and 54:
Powdery Mildew: An Emerging Disease
- Page 55 and 56:
Table 1 (continued).z Cultivar Coun
- Page 57 and 58:
Disease Severeity Rating Figure 1.
- Page 59 and 60:
In the present study C. lanatus ent
- Page 61 and 62:
Lakes, NJ) was a 0.5 cc (50 unit) s
- Page 63 and 64:
Characterization of a New Male Ster
- Page 65 and 66:
Table 1. Progeny test of male steri
- Page 67 and 68:
Progeny Diploid Year Season generat
- Page 69 and 70:
elatively small during its developm
- Page 71 and 72:
content had no significant effect o
- Page 73 and 74:
Stars-N-Stripes 26.3 12.0 35 8.5 5.
- Page 75 and 76:
11. Mozumder, B.K.G, N.E. Caroselli
- Page 77 and 78:
Table 1. Vine length of watermelon
- Page 79 and 80:
Survey of Watermelon Trialing Metho
- Page 81 and 82:
assigned to adjacent plots (Table 2
- Page 83 and 84:
Variation among tropical pumpkin cu
- Page 85 and 86:
Table 1. Aggressiveness of powdery
- Page 87 and 88:
A large variability of aggressivene
- Page 89 and 90:
Table 1: Observed reaction of melon
- Page 91 and 92:
Same Gene for Bush Growth Habit in
- Page 93 and 94:
Relationship between Fruit Shape an
- Page 95 and 96: Table 3. Seed yield per fruit and s
- Page 97 and 98: The four cultivar-groups differed m
- Page 99 and 100: Lee et al. (17) developed a RAPD ma
- Page 101 and 102: 19. Lelley, T and S. Henglmüller,
- Page 103 and 104: Those primers that had strong bands
- Page 105 and 106: Genetic Variability in Pumpkin (Cuc
- Page 107 and 108: those obtained by the ANOVA and the
- Page 109 and 110: Agarose discs were prepared as desc
- Page 111 and 112: Table 4. Effect of different densit
- Page 113 and 114: Isolation and Callus Production fro
- Page 115 and 116: Table 1. Components used for cultur
- Page 117 and 118: 6. Jia, Shi-rong, You-ying Fu and Y
- Page 119 and 120: the preceding one or two days (depe
- Page 121 and 122: Gene List 2001 for Cucumber Jiahua
- Page 123 and 124: Ar - Anthracnose resistance. One of
- Page 125 and 126: de I determinate habit. Short vine
- Page 127 and 128: gi - ginkgo. Leaves reduced and dis
- Page 129 and 130: Mdh-4 Mdh- 3 Malate dehydrogenase-4
- Page 131 and 132: h from 'Gy 2 cp cp', 'Spartan Salad
- Page 133 and 134: wf - White flesh. Intense white fle
- Page 135 and 136: M16056 Cotyledon cDNA Encoding ribu
- Page 137 and 138: (for CsPK2.2) AB001590 Hypocotyl RN
- Page 139 and 140: Caruth, T. F. 1975. A genetic study
- Page 141 and 142: John, C. A. and J. D. Wilson. 1952.
- Page 143 and 144: Ohkawa, J., A. Shinmyo, M. Kanchana
- Page 145: Shimizu, S., K. Kanazawa, and A. Ka
- Page 149 and 150: Cucurbit Genetics Cooperative 2001-
- Page 151 and 152: Denlinger, Phil Mt. Olive Pickle Co
- Page 153 and 154: Keita, Sugiyama Kurume Branch, Natl
- Page 155 and 156: germplasm evaluation and conservati
- Page 157 and 158: Sarfatti, Matti Hazera Ltd., Resear
- Page 159 and 160: Alabama Fenny Dane Arkansas Ted Mor
- Page 161 and 162: Covenant and By-Laws of the Cucurbi
- Page 163: ARTICLE IX. General Prohibitions No
Change language