Lucilia cuprina genome unlocks parasitic fly biology to underpin future interventions.

Authors :: Anstead CA
Korhonen PK
Young ND
Hall RS
Jex AR
Murali SC
Hughes DS
Lee SF
Perry T
Stroehlein AJ
Ansell BR
Breugelmans B
Hofmann A
Qu J
Dugan S
Lee SL
Chao H
Dinh H
Han Y
Doddapaneni HV
Worley KC
Muzny DM
Ioannidis P
Waterhouse RM
Zdobnov EM
James PJ
Bagnall NH
Kotze AC
Gibbs RA
Richards S
Batterham P
Gasser RB
Source :: Nature communications [Nat Commun] 2015 Jun 25; Vol. 6, pp. 7344. Date of Electronic Publication: 2015 Jun 25.
Publication Year :: 2015
Abstract: Lucilia cuprina is a parasitic fly of major economic importance worldwide. Larvae of this fly invade their animal host, feed on tissues and excretions and progressively cause severe skin disease (myiasis). Here we report the sequence and annotation of the 458-megabase draft genome of Lucilia cuprina. Analyses of this genome and the 14,544 predicted protein-encoding genes provide unique insights into the fly's molecular biology, interactions with the host animal and insecticide resistance. These insights have broad implications for designing new methods for the prevention and control of myiasis.

Subjects :: Animals
Female
Insect Proteins genetics
Insecticide Resistance genetics
Insecticides pharmacology
Larva
Male
Transcriptome
Diptera genetics
Gene Expression Regulation physiology
Genome, Insect
Insect Proteins metabolism

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