Coffee biotechnology
Coffee, a perennial tree crop, is difficult to improve through breeding. Varietal improvement programs have focused on improving overall yield through increasing plant vigor and disease resistance. Genes may be introgressed from wide crosses, but such efforts are often hindered by sexual barriers. In addition, such efforts require many cycles of selfing and backcrossing to eliminate deleterious genes and gene combinations. Recent advances in cellular, developmental and molecular genetics, when combined with conventional breeding, can target and achieve improvements in specific agronomic, processing, and consumer qualities. Somatic embryos, which can be regenerated into intact coffee plants, can be induced from a variety of tissues. Coffee embryogenic cell suspensions have been developed for in vitro selection and rapid clonal propagation. These developments permit further coffee improvement through genetic engineering. DNA probes may also be used to track desirable genes or gene combinations to assist plant breeding. Integration of these technologies will also reduce the development time for varietal improvement. Future advances in plantation management and post-harvest processing will be matched by improvements in the coffee plant
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Londres (RU) Elsevier
1988
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| Subjects: | COFFEA, BIOTECNOLOGIA, CULTIVO DE TEJIDOS, CULTIVO DE EMBRIONES, CULTIVO DE CELULAS, MERISTEMAS, CULTIVO DE ANTERAS, CULTIVO DE PROTOPLASTOS, |
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KOHA-OAI-BVE:854362020-02-03T21:52:45ZCoffee biotechnologyCoffee, 4: Agronomy 120547 Sondahl, M.R. 87366 Loh, W.H.T. 57898 Clarke, R.J. 89190 Macrae, R. Londres (RU) Elsevier1988Coffee, a perennial tree crop, is difficult to improve through breeding. Varietal improvement programs have focused on improving overall yield through increasing plant vigor and disease resistance. Genes may be introgressed from wide crosses, but such efforts are often hindered by sexual barriers. In addition, such efforts require many cycles of selfing and backcrossing to eliminate deleterious genes and gene combinations. Recent advances in cellular, developmental and molecular genetics, when combined with conventional breeding, can target and achieve improvements in specific agronomic, processing, and consumer qualities. Somatic embryos, which can be regenerated into intact coffee plants, can be induced from a variety of tissues. Coffee embryogenic cell suspensions have been developed for in vitro selection and rapid clonal propagation. These developments permit further coffee improvement through genetic engineering. DNA probes may also be used to track desirable genes or gene combinations to assist plant breeding. Integration of these technologies will also reduce the development time for varietal improvement. Future advances in plantation management and post-harvest processing will be matched by improvements in the coffee plantCoffee, a perennial tree crop, is difficult to improve through breeding. Varietal improvement programs have focused on improving overall yield through increasing plant vigor and disease resistance. Genes may be introgressed from wide crosses, but such efforts are often hindered by sexual barriers. In addition, such efforts require many cycles of selfing and backcrossing to eliminate deleterious genes and gene combinations. Recent advances in cellular, developmental and molecular genetics, when combined with conventional breeding, can target and achieve improvements in specific agronomic, processing, and consumer qualities. Somatic embryos, which can be regenerated into intact coffee plants, can be induced from a variety of tissues. Coffee embryogenic cell suspensions have been developed for in vitro selection and rapid clonal propagation. These developments permit further coffee improvement through genetic engineering. DNA probes may also be used to track desirable genes or gene combinations to assist plant breeding. Integration of these technologies will also reduce the development time for varietal improvement. Future advances in plantation management and post-harvest processing will be matched by improvements in the coffee plantCOFFEABIOTECNOLOGIACULTIVO DE TEJIDOSCULTIVO DE EMBRIONESCULTIVO DE CELULASMERISTEMASCULTIVO DE ANTERASCULTIVO DE PROTOPLASTOS |
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COFFEA BIOTECNOLOGIA CULTIVO DE TEJIDOS CULTIVO DE EMBRIONES CULTIVO DE CELULAS MERISTEMAS CULTIVO DE ANTERAS CULTIVO DE PROTOPLASTOS COFFEA BIOTECNOLOGIA CULTIVO DE TEJIDOS CULTIVO DE EMBRIONES CULTIVO DE CELULAS MERISTEMAS CULTIVO DE ANTERAS CULTIVO DE PROTOPLASTOS |
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COFFEA BIOTECNOLOGIA CULTIVO DE TEJIDOS CULTIVO DE EMBRIONES CULTIVO DE CELULAS MERISTEMAS CULTIVO DE ANTERAS CULTIVO DE PROTOPLASTOS COFFEA BIOTECNOLOGIA CULTIVO DE TEJIDOS CULTIVO DE EMBRIONES CULTIVO DE CELULAS MERISTEMAS CULTIVO DE ANTERAS CULTIVO DE PROTOPLASTOS 120547 Sondahl, M.R. 87366 Loh, W.H.T. 57898 Clarke, R.J. 89190 Macrae, R. Coffee biotechnology |
| description |
Coffee, a perennial tree crop, is difficult to improve through breeding. Varietal improvement programs have focused on improving overall yield through increasing plant vigor and disease resistance. Genes may be introgressed from wide crosses, but such efforts are often hindered by sexual barriers. In addition, such efforts require many cycles of selfing and backcrossing to eliminate deleterious genes and gene combinations. Recent advances in cellular, developmental and molecular genetics, when combined with conventional breeding, can target and achieve improvements in specific agronomic, processing, and consumer qualities. Somatic embryos, which can be regenerated into intact coffee plants, can be induced from a variety of tissues. Coffee embryogenic cell suspensions have been developed for in vitro selection and rapid clonal propagation. These developments permit further coffee improvement through genetic engineering. DNA probes may also be used to track desirable genes or gene combinations to assist plant breeding. Integration of these technologies will also reduce the development time for varietal improvement. Future advances in plantation management and post-harvest processing will be matched by improvements in the coffee plant |
| format |
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| topic_facet |
COFFEA BIOTECNOLOGIA CULTIVO DE TEJIDOS CULTIVO DE EMBRIONES CULTIVO DE CELULAS MERISTEMAS CULTIVO DE ANTERAS CULTIVO DE PROTOPLASTOS |
| author |
120547 Sondahl, M.R. 87366 Loh, W.H.T. 57898 Clarke, R.J. 89190 Macrae, R. |
| author_facet |
120547 Sondahl, M.R. 87366 Loh, W.H.T. 57898 Clarke, R.J. 89190 Macrae, R. |
| author_sort |
120547 Sondahl, M.R. |
| title |
Coffee biotechnology |
| title_short |
Coffee biotechnology |
| title_full |
Coffee biotechnology |
| title_fullStr |
Coffee biotechnology |
| title_full_unstemmed |
Coffee biotechnology |
| title_sort |
coffee biotechnology |
| publisher |
Londres (RU) Elsevier |
| publishDate |
1988 |
| work_keys_str_mv |
AT 120547sondahlmr coffeebiotechnology AT 87366lohwht coffeebiotechnology AT 57898clarkerj coffeebiotechnology AT 89190macraer coffeebiotechnology AT 120547sondahlmr coffee4agronomy AT 87366lohwht coffee4agronomy AT 57898clarkerj coffee4agronomy AT 89190macraer coffee4agronomy |
| _version_ |
1756059413087518721 |