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1.
Plant Dis ; 103(5): 818-824, 2019 May.
Article in English | MEDLINE | ID: mdl-30806574

ABSTRACT

Maize and sugarcane are two economically important crops often grown in adjacent fields or co-cultivated in the northern guinea savannah agroecological zone, a major cereal production region of Nigeria. This study was conducted to determine the prevalence of mosaic disease in sugarcane and maize fields in the northern guinea savannah agroecological zone and to molecularly characterize the associated sugarcane mosaic virus (SCMV, genus Potyvirus) isolates. Surveys were conducted from June to July 2015, and sugarcane mosaic disease (SCMD) incidence was assessed across 21 farmer's fields. Mean SCMD incidence varied across states with ∼82% (308/376), ∼66% (143/218), and ∼67% (36/54) recorded in Kaduna, Kano, and Katsina states, respectively. RT-PCR analysis of 415 field-collected samples using genus-specific primers confirmed potyvirus infection in 63.7% (156/245) of sugarcane, 29.7% (42/141) of maize crops, and 45% (13/29) of itch grass samples. Cloning and sequencing of gene-specific DNA amplicons from a subset of 45 samples (sugarcane = 33, maize = 9, itch grass = 3) confirmed their specificities to SCMV. Phylogenetic analysis of the partial gene sequences showed that they all belong to a single monophyletic clade of SCMV. These results were supported by analysis of complete polyprotein sequences of representative maize and sugarcane isolates from Nigeria. Both isolates shared 94.9%/97.3% complete polyprotein nucleotide (nt)/amino acid (aa) identities with each other and 75.2%/97.6% nt/aa identities with corresponding sequences of global SCMV isolates. The detection of identical populations of SCMV isolates in both crop species and a weed host suggests possible vector mediated interspecies spread within cereal landscapes in the study area with implications for the integrated and sustainable management of SCMD in cereal cropping systems in Nigeria.


Subject(s)
Genome, Viral , Plant Diseases , Potyvirus , Nigeria , Phylogeny , Plant Diseases/statistics & numerical data , Plant Diseases/virology , Potyvirus/genetics , Prevalence , Saccharum/virology , Zea mays/virology
2.
Food Chem Toxicol ; 107(Pt A): 520-521, 2017 Sep.
Article in English | MEDLINE | ID: mdl-28663033

ABSTRACT

Present letter is aimed at clarifying some critical points highlighted by Hanlon et al. regarding the common knowledge element of the safety of food enzymes in support of their GRAS designation. Particularly, we outline the development of peer-reviewed, generally recognized safety evaluation methodology for microbial enzymes and its adoption by the enzyme industry, which provides the US FDA with a review framework for enzyme GRAS Notices. This approach may serve as a model to other food ingredient categories for a scientifically sound, rigorous, and transparent application of the GRAS concept.


Subject(s)
Enzymes/standards , Food Safety , Humans , Pilot Projects , United States , United States Food and Drug Administration
3.
Arch Virol ; 161(6): 1729-33, 2016 Jun.
Article in English | MEDLINE | ID: mdl-27016928

ABSTRACT

Two isolates of a novel bipartite begomovirus, tentatively named malvastrum bright yellow mosaic virus (MaBYMV), were molecularly characterized from naturally infected plants of the genus Malvastrum showing bright yellow mosaic disease symptoms in South Texas. Six complete DNA-A and five DNA-B genome sequences of MaBYMV obtained from the isolates ranged in length from 2,608 to 2,609 nucleotides (nt) and 2,578 to 2,605 nt, respectively. Both genome segments shared a 178- to 180-nt common region. In pairwise comparisons, the complete DNA-A and DNA-B sequences of MaBYMV were most similar (87-88 % and 79-81 % identity, respectively) and phylogenetically related to the corresponding sequences of sida mosaic Sinaloa virus-[MX-Gua-06]. Further analysis revealed that MaBYMV is a putative recombinant virus, thus supporting the notion that malvaceous hosts may be influencing the evolution of several begomoviruses. The design of new diagnostic primers enabled the detection of MaBYMV in cohorts of Bemisia tabaci collected from symptomatic Malvastrum sp. plants, thus implicating whiteflies as potential vectors of the virus.


Subject(s)
Begomovirus/genetics , Animals , Begomovirus/classification , Begomovirus/isolation & purification , DNA, Viral/genetics , Genome, Viral , Hemiptera/virology , Insect Vectors/virology , Malvaceae/virology , Phylogeny , Plant Diseases/virology , Recombination, Genetic , Texas
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