Biblio

Status message

MGIS Boost cached version.
[ Author(Asc)] Title Type Year
Filters: First Letter Of Last Name is D  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
D
Duroy P-O, Perrier X, Laboureau N, Jacquemoud-Collet J-P, Iskra-Caruana M-L.  2016.  How endogenous plant pararetroviruses shed light on Musa evolution.. Ann Bot. 117(4):625-41.
Draye X, Delvaux B, Swennen R.  1999.  Distribution of lateral root primordia in root tips of Musa. Annals of Botany. 84:393–400.
Draye X.  2002.  Consequences of root growth kinetics and vascular structure on the distribution of lateral roots. Plant, Cell & Environment. 25:1463–1474.
Drapal M, de Carvalho EBarros, Rouard M, Amah D, Sardos J, Van den Houwe I, Brown A, Roux N, Swennen R, Fraser PD.  2019.  Metabolite profiling characterises chemotypes of Musa diploids and triploids at juvenile and pre-flowering growth stages. Scientific reports. 9:4657.
Drapal M, Amah D, Schöny H, Brown A, Swennen R, Fraser PD.  2020.  Assessment of metabolic variability and diversity present in leaf, peel and pulp tissue of diploid and triploid Musa spp.. Phytochemistry. 176:112388.
Doleżelová M, Valárik M, Swennen R, Horry JP, Doleżel J.  1998.  Physical mapping of the 18S-25S and 5S ribosomal RNA genes in diploid bananas. Biologia Plantarum. 41:497–505.
Dochez C, Dusabe J, Tenkouano A, Ortiz R, Whyte J, De Waele D.  2013.  Screening Musa germplasm for resistance to burrowing nematode populations from Uganda. Genetic resources and crop evolution. 60:367–375.
Dita M, Teixeira L, Li C, Zheng Z, O’Neill W, Daniells J.  2020.  Phenotyping Musa spp. for host reaction to Fusarium oxysporum f. sp. cubense, under greenhouse and field conditions. MusaNet technical guidelines.
D'Hont A, Denoeud F, Aury J-M, Baurens F-C, Carreel F, Garsmeur O, Noel B, Bocs S, Droc G, Rouard M et al..  2012.  The banana (Musa acuminata) genome and the evolution of monocotyledonous plants.. Nature. 488(7410):213-7.
Dhakshinamoorthy S, Mariama K, Elsen A, De Waele D.  2014.  Phenols and lignin are involved in the defence response of banana (Musa) plants to Radopholus similis infection. Nematology. 16:565–576.
Dépigny S, Tchotang F, Talla M, Fofack D, Essomé D, Ebongué J-P, Kengni B, Lescot T.  2018.  The ‘Plantain-Optim’dataset: Agronomic traits of 405 plantains every 15 days from planting to harvest. Data in brief. 17:671–680.
Delanoy M, Salmon M, Kummert J, Frison E, Lepoivre P.  2003.  Development of real-time PCR for the rapid detection of episomal Banana streak virus (BSV). Plant disease. 87:33–38.
De Langhe E, Hřibová E, Carpentier S, Doleżel J, Swennen R.  2010.  Did backcrossing contribute to the origin of hybrid edible bananas? Annals of botany. 106:849–857.
De Clerck C, Crew K, Van den Houwe I, McMichael L, Berhal C, Lassois L, M Jijakli H, Roux N, Thomas J, Massart S.  2017.  Lessons learned from the virus indexing of Musa germplasm: insights from a multiyear collaboration. Annals of Applied Biology. 171:15–27.
Davey MW, Gudimella R, Harikrishna JAnn, Sin LWan, Khalid N, Keulemans J.  2013.  A draft Musa balbisiana genome sequence for molecular genetics in polyploid, inter-and intra-specific Musa hybrids. BMC genomics. 14:1.
Datta S, Jankowicz-Cieslak J, Nielen S, Ingelbrecht I, Till BJ.  2018.  Induction and recovery of copy number variation in banana through gamma irradiation and low-coverage whole-genome sequencing. Plant biotechnology journal.
Daniells J.W., Sharrock S., Kambuou R..  1988.  Report on the second IBPGR/QDPI banana germplasm collecting mission to Papua New Guinea, 22 October to 27 November 1988. :29.

Pages