about
Gene expression atlas for the food security crop cassavaEmerging pests and diseases of South-east Asian cassava: a comprehensive evaluation of geographic priorities, management options and research needs.Evaluating Imputation Algorithms for Low-Depth Genotyping-By-Sequencing (GBS) Data.Cloning and characterization of a tuberous root-specific promoter from cassava (Manihot esculenta Crantz).Proteome characterization of cassava (Manihot esculenta Crantz) somatic embryos, plantlets and tuberous roots.Field testing and exploitation of genetically modified cassava with low-amylose or amylose-free starch in Indonesia.Informal "seed" systems and the management of gene flow in traditional agroecosystems: the case of cassava in Cauca, Colombia.Why mosaic? Gene expression profiling of African cassava mosaic virus-infected cassava reveals the effect of chlorophyll degradation on symptom development.High-resolution identification and abundance profiling of cassava (Manihot esculenta Crantz) microRNAs.Domestication Syndrome Is Investigated by Proteomic Analysis between Cultivated Cassava (Manihot esculenta Crantz) and Its Wild RelativesHigh-throughput genomic sequencing of cassava bacterial blight strains identifies conserved effectors to target for durable resistance.Physiological and molecular characterization of drought responses and identification of candidate tolerance genes in cassava.Cassava Breeding I: The Value of Breeding Value.Diallel analysis of provitamin A carotenoid and dry matter content in cassava (Manihot esculenta Crantz).Effect of genotype and genotype by environment interaction on total cyanide content, fresh root, and starch yield in farmer-preferred cassava landraces in Tanzania.Unlocking the potential of tropical root crop biotechnology in east Africa by establishing a genetic transformation platform for local farmer-preferred cassava cultivars.Cassava Breeding II: Phenotypic Correlations through the Different Stages of SelectionDeep Assessment of Genomic Diversity in Cassava for Herbicide Tolerance and Starch Biosynthesis.Cassava: constraints to production and the transfer of biotechnology to African laboratories.QTL associated with resistance to cassava brown streak and cassava mosaic diseases in a bi-parental cross of two Tanzanian farmer varieties, Namikonga and Albert.The industrial applications of cassava: current status, opportunities and prospects.Overexpression of Arabidopsis FLOWERING LOCUS T (FT) gene improves floral development in cassava (Manihot esculenta, Crantz).Cassava traits and end-user preference: Relating traits to consumer liking, sensory perception, and genetics.Molecular analysis of the expression of a crtB transgene and the endogenous psy2-y 1 and psy2-y 2 genes of cassava and their effect on root carotenoid content.A socio-scientific analysis of the environmental and health benefits as well as potential risks of cassava production and consumption.Melatonin attenuates postharvest physiological deterioration of cassava storage roots.Efficient transformation and regeneration of transgenic cassava using the neomycin phosphotransferase gene as aminoglycoside resistance marker gene.Factors influencing somatic embryogenesis, regeneration, and Agrobacterium-mediated transformation of cassava (Manihot esculenta Crantz) cultivar TME14.Genome-wide characterization and expression analysis enables identification of abiotic stress-responsive MYB transcription factors in cassava (Manihot esculenta).Cloning, 3D modeling and expression analysis of three vacuolar invertase genes from cassava (Manihot Esculenta Crantz).Virus-Induced Flowering: An Application of Reproductive Biology to Benefit Plant Research and Breeding.FLOWERING LOCUS T Triggers Early and Fertile Flowering in Glasshouse Cassava (Manihot esculenta Crantz).Formation of friable embryogenic callus in cassava is enhanced under conditions of reduced nitrate, potassium and phosphate.Expression of Cry1Aa in cassava improves its insect resistance against Helicoverpa armigera.Somatic embryogenesis and plant regeneration of cassava (Manihot esculenta Crantz) landraces from Cameroon.Robust transformation procedure for the production of transgenic farmer-preferred cassava landraces.Efficient CRISPR/Cas9 Genome Editing of Phytoene desaturase in Cassava.Genetic inheritance of pulp colour and selected traits of cassava (Manihot esculenta Crantz) at early generation selection.Genome-wide association mapping and genomic prediction for CBSD resistance in Manihot esculenta.African Orphan Crops under Abiotic Stresses: Challenges and Opportunities.
P2860
Q30490769-2D89B9FF-DB9C-441B-894E-35E06056FCE9Q31043476-73CAA1FB-A477-4292-B647-46C827BA4D58Q31122308-4745CA4D-837A-4647-836D-33B845384F66Q33354676-D0FD29F2-EA1C-4958-8FBD-61B215CDAF8FQ33741708-93017F67-739D-43D6-BC21-E42571F31952Q33862840-FE098549-0BE3-43B5-9960-FA3A315FB487Q34103607-3575D80B-3200-4B8E-B5A1-E9D8B994BB60Q35044353-A76E3649-577C-4826-AA39-6AB7AEED40A2Q35907794-565FDB1F-CF55-4872-8375-C2F70EB782B5Q35972978-491360D1-F400-41AC-96A5-1B6556579BD1Q36094297-014F4F3F-3E37-46E6-8BD2-4B1B5DC5E437Q36705846-5D084C83-7AB7-4DB9-AE92-EFD72163AE73Q37213173-9F3761FD-29AE-4628-8F1E-6D365A38487CQ37230042-065526A8-C471-4F16-9DDD-3CE2DD358A35Q37386953-1FD5A2F6-AB0D-4DE9-9D30-4AEF8502547BQ37412342-E56209C6-9FA6-43E4-872E-A7E4DE5A84E4Q37503874-4C8EC32D-81D5-425E-BE62-C50F4DC3EA1AQ37629378-336BB2E2-2329-4E20-8986-9301AAB08815Q37826645-49DF7070-E1AD-47D9-A889-96298CAC118FQ38679681-4ED94125-D94C-4FE8-BA17-91BB7D2D1217Q38753787-637447BC-8BB9-4E82-BFE2-E5F66B8B6022Q38860869-635F3860-1F50-42FE-879E-D83A5465AEE7Q38898853-0E59A59D-0706-42E7-8865-3683BC23C4A9Q38940504-779A3826-B2CB-4A35-BC0C-941F6AA0A9B1Q39053390-0C91BD63-CCE2-49EE-BD48-E30B8089FF21Q39198112-D591E774-E00E-4BBC-9A86-C1A09F4F4C2DQ39304875-3891B1CB-3A3D-4AF6-9288-F732907442E5Q39312865-464E8F3B-DAFA-4729-9366-D43B9DFBFB87Q39412668-464D9E41-473F-4B00-85E7-ACF2FAECA4A8Q39614376-C89B4216-77A3-4B34-A27B-BBA60C182FC5Q40470956-0EF8AEB3-89F0-4AD9-A0F8-185B80CB089EQ41009665-DB069123-51AF-41CA-9639-D7D03466DA9EQ41383126-CC4C60DB-3BA0-4B0B-9760-B66A22A403B2Q42009976-93AC6CD6-0501-4FD8-A5B9-C0E7E9665C49Q42095333-1548480C-C8BA-4680-9DFA-A6ADB7750211Q42324632-46781648-317C-4205-A10E-4F724EBA2290Q46270494-4ACC7580-C5FE-446F-9444-FF42D7BB5277Q46343479-22BC7469-7DC7-48E2-88A4-516F527942E4Q48171884-EDEC5D86-2595-45AC-94E9-0D3E4014AF71Q53695275-E9B5634F-6069-4BD3-8781-7504AD5C1AC2
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Cassava breeding: opportunities and challenges.
@en
type
label
Cassava breeding: opportunities and challenges.
@en
prefLabel
Cassava breeding: opportunities and challenges.
@en
P2093
P1476
Cassava breeding: opportunities and challenges.
@en
P2093
Alfred G O Dixon
Carlos A Iglesias
Hernán Ceballos
Juan C Pérez
P2888
P304
P356
10.1007/S11103-004-5010-5
P577
2004-11-01T00:00:00Z