Islam_2012_BMC.Genomics_13_493

Reference

Title : Tools to kill: genome of one of the most destructive plant pathogenic fungi Macrophomina phaseolina - Islam_2012_BMC.Genomics_13_493
Author(s) : Islam MS , Haque MS , Islam MM , Emdad EM , Halim A , Hossen QM , Hossain MZ , Ahmed B , Rahim S , Rahman MS , Alam MM , Hou S , Wan X , Saito JA , Alam M
Ref : BMC Genomics , 13 :493 , 2012
Abstract :

BACKGROUND: Macrophomina phaseolina is one of the most destructive necrotrophic fungal pathogens that infect more than 500 plant species throughout the world. It can grow rapidly in infected plants and subsequently produces a large amount of sclerotia that plugs the vessels, resulting in wilting of the plant.
RESULTS: We sequenced and assembled ~49 Mb into 15 super-scaffolds covering 92.83% of the M. phaseolina genome. We predict 14,249 open reading frames (ORFs) of which 9,934 are validated by the transcriptome. This phytopathogen has an abundance of secreted oxidases, peroxidases, and hydrolytic enzymes for degrading cell wall polysaccharides and lignocelluloses to penetrate into the host tissue. To overcome the host plant defense response, M. phaseolina encodes a significant number of P450s, MFS type membrane transporters, glycosidases, transposases, and secondary metabolites in comparison to all sequenced ascomycete species. A strikingly distinct set of carbohydrate esterases (CE) are present in M. phaseolina, with the CE9 and CE10 families remarkably higher than any other fungi. The phenotypic microarray data indicates that M. phaseolina can adapt to a wide range of osmotic and pH environments. As a broad host range pathogen, M. phaseolina possesses a large number of pathogen-host interaction genes including those for adhesion, signal transduction, cell wall breakdown, purine biosynthesis, and potent mycotoxin patulin.
CONCLUSIONS: The M. phaseolina genome provides a framework of the infection process at the cytological and molecular level which uses a diverse arsenal of enzymatic and toxin tools to destroy the host plants. Further understanding of the M. phaseolina genome-based plant-pathogen interactions will be instrumental in designing rational strategies for disease control, essential to ensuring global agricultural crop production and security.

PubMedSearch : Islam_2012_BMC.Genomics_13_493
PubMedID: 22992219
Gene_locus related to this paper: macph-k2rpg5 , macph-k2rib9 , macph-k2rk99 , macph-k2rr60 , macph-k2qwn3 , macph-k2rda2 , macph-k2rh46 , macph-k2rhf0 , macph-k2rls3 , macph-k2rps6 , macph-k2rpy1 , macph-k2rtn6 , macph-k2rty0 , macph-k2rub9 , macph-k2rvj5 , macph-k2ryd3 , macph-k2s0u2 , macph-k2s1j3 , macph-k2s4t0 , macph-k2s6a5 , macph-k2s713 , macph-k2s7d0 , macph-k2s7l1 , macph-k2s9s2 , macph-k2sg04 , macph-k2si26 , macph-k2r678 , macph-k2sls1 , macph-k2rt33 , macph-k2rb00 , macph-k2scp3 , macph-k2r291 , macph-k2r695 , macph-k2r9q4 , macph-k2res7 , macph-k2s7y7 , macph-k2rnn6 , macph-k2s6r2

Related information

Gene_locus macph-k2rpg5    macph-k2rib9    macph-k2rk99    macph-k2rr60    macph-k2qwn3    macph-k2rda2    macph-k2rh46    macph-k2rhf0    macph-k2rls3    macph-k2rps6    macph-k2rpy1    macph-k2rtn6    macph-k2rty0    macph-k2rub9    macph-k2rvj5    macph-k2ryd3    macph-k2s0u2    macph-k2s1j3    macph-k2s4t0    macph-k2s6a5    macph-k2s713    macph-k2s7d0    macph-k2s7l1    macph-k2s9s2    macph-k2sg04    macph-k2si26    macph-k2r678    macph-k2sls1    macph-k2rt33    macph-k2rb00    macph-k2scp3    macph-k2r291    macph-k2r695    macph-k2r9q4    macph-k2res7    macph-k2s7y7    macph-k2rnn6    macph-k2s6r2
Gene_locus_frgt macph-k2sac6    macph-k2qk50    macph-k2qkg9    macph-k2r546    macph-k2r933    macph-k2rbt3    macph-k2rch3    macph-k2rga3    macph-k2rj78    macph-k2rlg0    macph-k2rmh0    macph-k2rms6    macph-k2rpu0    macph-k2rqv7    macph-k2rxs2    macph-k2ry94    macph-k2s761    macph-k2s874    macph-k2smi1    macph-k2ssu9    macph-k2sw92

Citations formats

Islam MS, Haque MS, Islam MM, Emdad EM, Halim A, Hossen QM, Hossain MZ, Ahmed B, Rahim S, Rahman MS, Alam MM, Hou S, Wan X, Saito JA, Alam M (2012)
Tools to kill: genome of one of the most destructive plant pathogenic fungi Macrophomina phaseolina
BMC Genomics 13 :493

Islam MS, Haque MS, Islam MM, Emdad EM, Halim A, Hossen QM, Hossain MZ, Ahmed B, Rahim S, Rahman MS, Alam MM, Hou S, Wan X, Saito JA, Alam M (2012)
BMC Genomics 13 :493