Horticultural and chemical quality characterization of accessions selected from four species of Capsicum
详细信息 查看全文
- 作者:Hwang-sung Mo ; Kil-su Jang ; Ji-eun Hwang…
- 关键词:Capsicum annuum ; Capsicum baccatum ; Capsicum chinense ; Capsicum frutescens ; capsaicinoids ; color
- 刊名:Horticulture, Environment, and Biotechnology
- 出版年:2015
- 出版时间:February 2015
- 年:2015
- 卷:56
- 期:1
- 页码:54-66
- 全文大小:617 KB
- 参考文献:1. Andrews, J. (1995) Peppers: he domesticated capsicums. University of Texs Press, Austin
Official analytical method of the American Spice Trade Association; ASTA analytical method 20.1. American Spice Trade Assoc., USA
2. Attuquayefio, V.K., Bukle, K.A. (1987) Rapid sample preparation method for HPLC analysis of capsaicinoids in Capsicum fruits and oleoresins. J. Agri. Food Chem. 35: pp. 777-779 CrossRef
3. Baral, J.B., Bosland, P.W. (2002) Genetic diversity of a Capsicum germplasm collection from Nepal as determined by randomly amplified polymorphic DNA markers. J. Amer. Soc. Hort. Sci. 127: pp. 318-324
4. Chaim, A., Borovsky, Y., Falise, M., Mazourek, M., Kang, B.C., Paran, I., Jahn, M. (2006) QTL analysis for capsaicinoid content in Capsicum. Theor. Appl. Genet. 113: pp. 1481-1490 CrossRef
5. Bennett, D.J., Kirby, G.W. (1968) Constitution and biosynthesis of capsaicin. J. Chem. Soc. C: pp. 442-446
6. Blum, E., Mazourek, M., O’Connell, M., Thorup, J., Liu, K., Jahn, M., Paran, I. (2003) Molecular mapping of capsaicinoid biosynthesis genes and quantitative trait loci analysis for capsaicinoid content in Capsicum. Theor. Appl. Genet. 108: pp. 79-86 CrossRef
7. Bosland, P.W., Baral, J.B. (2007) ‘Bhut Jolokia--The world’s hottest known chile pepper is a putative naturally occurring interspecific hybrid. HortScience 42: pp. 222-224
8. Charles, S.J., Kang, B.C., Liu, K., Mazourek, M., Moore, S.L., Yoo, E.Y., Kim, B.D., Paran, I., Jahn, M.M. (2005) The Pun1 gene for pungency in pepper encodes a putative acyltransferase. Plant J. 42: pp. 675-688 CrossRef
9. Charles, S.J., Mazourek, M., Stellari, G.M., O’Connell, M., Jahn, M. (2007) Genetic control of pungency in C. chinense via the Pun1 loucs. J. Exp. Bot. 5: pp. 979-991
10. Costa, F.R., Pereira, T.N.S., Vitoria, A.P., Campos, K.P., Rodrigues, R., Siva, D.H., Pereira, M.G. (2006) Genetic diversity among Capsicum accessions using RAPD markers. Crop Breeding Applied Biotechnol. 6: pp. 18-23 CrossRef
11. Curl, A.L. (1962) The carotenoids of red bell peppers. J. Agr. Food Chem. 10: pp. 504-509 CrossRef
12. Curl, A.L. (1964) The carotenoids of green bell peppers. J. Agr. Food Chem. 12: pp. 522-526 CrossRef
13. Deshpande, R.B. (1934) Studies in Indian chillies: (4) inheritance of pungency in Capsicum annuum L. Ind. J. Agr. Sci. 5: pp. 513-516
14. Greenleaf, W.H. Pepper breeding. In: Basset, M.J. eds. (1986) Breeding vegetable crops. AVI Pub. Co., Inc., Westport, Connecticut, U.S.A., pp. 67-134
15. Gregory, G.K., Chen, T.S., Philip, T. (1987) Quantitative analysis of carotenoids and carotenoid esters in fruits by HPLC: Red bell peppers. J. Food Sci. 52: pp. 1071-1073 CrossRef
16. Guzman, I., Hamby, S., Reomero, J., Bosland, P.W., O’Connell, M.A. (2010) Variability of carotenoid biosynthesis in orange colored Capsicum spp. Plant Sci. 179: pp. 49-59 CrossRef
17. Huh, J.H., Kang, B.C., Nahm, S.H., Kim, S., Ha, K.S., Lee, M.H., Kim, B.D. (2001) A candidate gene approach identified phytoene synthase as the locus for mature fruit color in red pepper (Capsicum spp.). Theor. Appl. Genet. 102: pp. 524-530 CrossRef
18. Hurtado-Herandez, H., Smith, P.G. (1985) Inheritance of mature fruit color in Capsicum annuum L. J. Hered. 76: pp. 211-213
19. Jeong, J.W., Seong, J.M., Park, K.J., Lim, J.H. (2007) Quality characteristics of semi-dried red pepper (Capscium annuum L.) using hot- air drying. Korean J. Food Preserv. 14: pp. 591-597
20. Kim, J.H., Cho, M.C., Cho, Y.I., Lee, H.E., Kang, W.H., Woo, J.G., Ahn, Y.K. (2012) Evaluation of horticultural characteristics in F6 RIL populations for research to quality-determining traits in chilli pepper. Korean J. Breeding - 刊物主题:Life Sciences, general; Plant Breeding/Biotechnology; Plant Physiology; Agriculture; Plant Ecology;
- 出版者:Springer Netherlands
- ISSN:2211-3460
文摘
Pepper accessions with promising adaptations to the Korean growing environment were selected from Capsiucm annuum, C. frutescens, C. baccatum, and C. chinense. ‘Cherry Sweet,-‘Papri Sweet,-and ‘Papri Mild-accessions of C. annuum were selected for their fresh fruit quality. The fruit of ‘Cherry Sweet-and ‘Papri Mild-matured into a bright red color, with a high American Spice Trade Association (ASTA) color value, while the fruit of ‘Papri Sweet-was characterized by a good taste and chewing texture. KC01299, KC01333, KC01338, and KC01345 accessions of C. frutescens had relatively low ASTA color values, but were highly pungent with a capsaicinoid content similar to or higher than Tabasco (375.5 mg·100 g?) and 3 to 5 times that of ‘Cheongyang-(103.3 mg·100 g?), which is a popular Korean hot pepper cultivar. The three selected C. baccatum accessions (KC01739, KC00625, and KC00628) were tolerant to powdery mildew and viruses, with KC01691 and KC00625 having high sugar content. A good diversity in fruit shape and chemical quality components was found among the selected C. chinense accessions. The fruit of KC01693 (with a temporary RDA genebank number 800080) were light emerald green when immature and ivory to ripe apricot color when mature, with a high sweet taste and the characteristic aroma of C. chinense. The mature fruits contained similar levels of capsaicinoids as ‘Cheonyang,-and had the highest sugar content of all tested accessions in this study. The red and orange lines bearing Korean chile pepper type fruits with tolerance to powdery mildew and viruses were selected from PI224445 (KC00163). The red fruit selection had the highest ASTA color value among all tested accessions, with the appropriate pungency for making Korean Kimchee. Bhut Jolokia had the highest ranking for capsaicinoid content, but its fruit set was poor. A red Habanero, KC01787, was selected for productivity, high capsaicinoid content, and tolerance to viruses in the field.