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Dive into the research topics where Shahid Mansoor is active.

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Featured researches published by Shahid Mansoor.


Virology | 2003

Diversity of DNA β, a satellite molecule associated with some monopartite begomoviruses

Rob W. Briddon; S. E. Bull; Imran Amin; A. M. Idris; Shahid Mansoor; Ian D. Bedford; Poonam Dhawan; Narayan Rishi; Surender S Siwatch; Aly M Abdel-Salam; Judith K. Brown; Yusuf Zafar; P. G. Markham

DNA beta molecules are symptom-modulating, single-stranded DNA satellites associated with monopartite begomoviruses (family Geminiviridae). Such molecules have thus far been shown to be associated with Ageratum yellow vein virus from Singapore and Cotton leaf curl Multan virus from Pakistan. Here, 26 additional DNA beta molecules, associated with diverse plant species obtained from different geographical locations, were cloned and sequenced. These molecules were shown to be widespread in the Old World, where monopartite begomoviruses are known to occur. Analysis of the sequences revealed a highly conserved organization for DNA beta molecules consisting of a single conserved open reading frame, an adenine-rich region, and a region of high sequence conservation [the satellite conserved region (SCR)]. The SCR contains a potential hairpin structure with the loop sequence TAA/GTATTAC; similar to the origins of replication of geminiviruses and nanoviruses. Two major groups of DNA beta satellites were resolved by phylogenetic analyses. One group originated from hosts within the Malvaceae and the second from a more diverse group of plants within the Solanaceae and Compositae. Within the two clusters, DNA beta molecules showed relatedness based both on host and geographic origin. These findings strongly support coadaptation of DNA beta molecules with their respective helper begomoviruses.


Molecular Biotechnology | 2002

Universal primers for the PCR-mediated amplification of DNA β

Rob W. Briddon; S. E. Bull; Shahid Mansoor; Imran Amin; P. G. Markham

DNA β is an approx 1350 nucleotide, single-stranded DNA molecule which has been shown to be associated with some monopartite geminiviruses of the genus Begomovirus. This component requires the helper begomovirus for replication in the cells of host plants and for insect transmission, possibly by trans-encapsidation. Sequence comparisons of the two available DNA β sequences has identified a highly conserved region upstream of a predicted hairpin structure. Abutting primers designed to this conserved region allows PCR-mediated amplification of the full-length DNA β component from total nucleic acid extracts isolated from infected plants originating from a variety of geographically distinct sources and host plants.


Trends in Plant Science | 2003

Geminivirus disease complexes: an emerging threat

Shahid Mansoor; Rob W. Briddon; Yusuf Zafar; John Stanley

Small circular single-stranded DNA satellites have recently been isolated from plants infected with whitefly-transmitted monopartite begomoviruses. The satellites, named DNA beta, depend on the helper viruses for their proliferation and, in turn, are required for helper virus accumulation and symptom expression. They are highly diverse yet retain an overall conserved structure with respect to potential coding regions and regulatory elements. The begomovirus-satellite disease complexes are associated with economically important diseases, and have been isolated from vegetable and fibre crops, ornamental plants and weeds throughout Africa and Asia. Their widespread distribution and diversity, coupled to the global movement of plant material and the dissemination of the whitefly vector, suggests that these disease complexes pose a serious threat to tropical and sub-tropical agro-ecosystems worldwide.


Archives of Virology | 2003

Cotton leaf curl disease is associated with multiple monopartite begomoviruses supported by single DNA β

Shahid Mansoor; Rob W. Briddon; S. E. Bull; Ian D. Bedford; Aftab Bashir; M. Hussain; M. Saeed; Yusuf Zafar; K. A. Malik; C. Fauquet; P. G. Markham

Summary For bipartite begomoviruses (family Geminiviridae) trans-replication of the DNA B component by the DNA A-encoded replication-associated protein (Rep) is achieved by virtue of a shared sequence, the “common region”, which contains repeated motifs (iterons) which are sequence-specific Rep binding sites and form part of the origin of replication. Recently cotton leaf curl disease (CLCuD), a major constraint to cotton production on the Indian subcontinent, has been shown to be caused by a monopartite begomovirus (Cotton leaf curl Multan virus [CLCuMV]) and a novel single-stranded DNA satellite molecule termed CLCuD DNA β. The satellite molecule is trans-replicated by CLCuMV but does not possess the iteron sequences of this virus. We have investigated the ability of CLCuD DNA β to interact with three further clones of monopartite begomoviruses, isolated from cotton, that have distinct Rep binding specificities. All three cloned viruses were capable of trans-replicating the satellite molecule and inducing CLCuD symptoms in cotton, indicating that the interaction between begomovirus and DNA β is relaxed in comparison to the interaction between DNA A and DNA B components. Field surveys across all the cotton growing regions of Pakistan indicate that dual and multiple infections are the norm for CLCuD with no evidence of synergism. Despite the diversity of begomoviruses associated with CLCuD, only a single class of DNA β has been detected, suggesting that this satellite has the capacity to be recruited by unrelated begomoviruses.


Molecular Plant-microbe Interactions | 2005

A Single Complementary-Sense Transcript of a Geminiviral DNA β Satellite Is Determinant of Pathogenicity

Muhammad Saeed; S. A. Akbar Behjatnia; Shahid Mansoor; Yusuf Zafar; Shahida Hasnain; M. Ali Rezaian

Small circular single-stranded DNA satellites, termed DNAbeta, have recently been found associated with some geminivirus infections. The DNA beta associated with Cotton leaf curl virus is responsible for symptom expression of a devastating disease in Pakistan. Mutagenesis of DNA beta revealed that the complementary-sense open reading frame (ORF) betaC1 is required for inducing disease symptoms in Nicotiana tabacum. An ORF present on the virion-sense strand betaV1 appeared to have no role in pathogenesis. Tobacco plants transformed with a betaC1 ORF under the control of the Cauliflower mosaic virus 35S promoter or with a dimeric DNA beta exhibited severe disease-like phenotypes, while plants transformed with a mutated version of betaC1 appeared normal. Northern blot analysis of RNA from the transgenic plants, using strand-specific probes, identified a single complementary-sense transcript. The transcript carries the full betaC1 ORF encoding a 118-amino acid product. It maps to the DNA beta at nucleotide position 186 to 563 and contains a polyadenylation signal 18 nt upstream of the stop codon. A TATA box is located 43 nt upstream of the start codon. Our results indicate that betaC1 protein is responsible for DNA beta-induced disease symptoms.


Virology | 2010

Post-transcriptional gene silencing suppressor activity of two non-pathogenic alphasatellites associated with a begomovirus.

Muhammad Shah Nawaz-ul-Rehman; Nazia Nahid; Shahid Mansoor; Rob W. Briddon; Claude M. Fauquet

Alphasatellites and betasatellites are begomovirus-associated single-stranded circular DNA molecules. Two distinct alphasatellites, Gossypium darwinii symptomless alphasatellite and Gossypium mustelinium symptomless alphasatellite, were previously isolated from Gossypium davidsonii and G.mustelinium. Here we show that the replication-associated proteins (Rep: a rolling-circle replication initiator protein) encoded by these alphasatellites interact with the Rep and C4 proteins encoded by their helper begomovirus, Cotton leaf curl Rajasthan virus (CLCuRaV), in a yeast two-hybrid assay. Both the alphasatellite-encoded Reps were found to have strong gene silencing suppressor activity, in contrast to the betasatellite-encoded betaC1 and CLCuRaV-encoded C2, C4 and V2 proteins. The presence of alphasatellites maintained suppression of gene silencing in the youngest, actively growing tissue of CLCuRaV-betasatellite-infected plants. This is the first demonstration of a rolling-circle replication initiator protein with suppressor of gene silencing activity and provides a possible explanation for the selective advantage provided by the association of alphasatellites with begomovirus-betasatellite complexes.


Molecular Plant-microbe Interactions | 2011

Suppressors of RNA Silencing Encoded by the Components of the Cotton Leaf Curl Begomovirus-BetaSatellite Complex

Imran Amin; Khadim Hussain; Rashid Akbergenov; Jitender S. Yadav; Javaria Qazi; Shahid Mansoor; Thomas Hohn; Claude M. Fauquet; Rob W. Briddon

Begomoviruses (family Geminiviridae) are single-stranded DNA viruses transmitted by the whitefly Bemisia tabaci. Many economically important diseases in crops are caused by begomoviruses, particularly in tropical and subtropical environments. These include the betasatellite-associated begomoviruses causing cotton leaf curl disease (CLCuD) that causes significant losses to a mainstay of the economy of Pakistan, cotton. RNA interference (RNAi) or gene silencing is a natural defense response of plants against invading viruses. In counter-defense, viruses encode suppressors of gene silencing that allow them to effectively invade plants. Here, we have analyzed the ability of the begomovirus Cotton leaf curl Multan virus (CLCuMV) and its associated betasatellite, Cotton leaf curl Multan β-satellite (CLCuMB) which, together, cause CLCuD, and the nonessential alphasatellite (Cotton leaf curl Multan alphasatellite [CLCuMA]) for their ability to suppress gene silencing in Nicotiana benthamiana. The results showed that CLCuMV by itself was unable to efficiently block silencing. However, in the presence of the betasatellite, gene silencing was entirely suppressed. Silencing was not affected in any way when infections included CLCuMA, although the alphasatellite was, for the first time, shown to be a target of RNA silencing, inducing the production in planta of specific small interfering RNAs, the effectors of silencing. Subsequently, using a quantitative real-time polymerase chain reaction assay and Northern blot analysis, the ability of all proteins encoded by CLCuMV and CLCuMB were assessed for their ability to suppress RNAi and the relative strengths of their suppression activity were compared. The analysis showed that the V2, C2, C4, and βC1 proteins exhibited suppressor activity, with the V2 showing the strongest activity. In addition, V2, C4, and βC1 were examined for their ability to bind RNA and shown to have distinct specificities. Although each of these proteins has, for other begomoviruses or betasatellites, been previously shown to have suppressor activity, this is the first time all proteins encoded by a geminiviruses (or begomovirus-betasatellite complex) have been examined and also the first for which four separate suppressors have been identified.


Journal of Virology | 2009

Maintenance of an Old World Betasatellite by a New World Helper Begomovirus and Possible Rapid Adaptation of the Betasatellite

Muhammad Shah Nawaz-ul-Rehman; Shahid Mansoor; Rob W. Briddon; Claude M. Fauquet

ABSTRACT Begomoviruses (family Geminiviridae) cause major losses to crops throughout the tropical regions of the world. Begomoviruses originating from the New World (NW) and the Old World (OW) are genetically distinct. Whereas the majority of OW begomoviruses have monopartite genomes and whereas most of these associate with a class of symptom-modulating satellites (known as betasatellites), the genomes of NW begomoviruses are exclusively bipartite and do not associate with satellites. Here, we show for the first time that a betasatellite (cotton leaf curl Multan betasatellite [CLCuMuB]) associated with a serious disease of cotton across southern Asia is capable of interacting with a NW begomovirus. In the presence of CLCuMuB, the symptoms of the NW cabbage leaf curl virus (CbLCuV) are enhanced in Nicotiana benthamiana. However, CbLCuV was unable to interact with a second betasatellite, chili leaf curl betasatellite. Although CbLCuV can transreplicate CLCuMuB, satellite accumulation levels in plants were low. However, progeny CLCuMuB isolated after just one round of infection with CbLCuV contained numerous mutations. Reinoculation of one such progeny CLCuMuB with CbLCuV to N. benthamiana yielded infections with significantly higher satellite DNA levels. This suggests that betasatellites can rapidly adapt for efficient transreplication by a new helper begomovirus, including begomoviruses originating from the NW. Although the precise mechanism of transreplication of betasatellites by begomoviruses remains unknown, an analysis of betasatellite mutants suggests that the sequence(s) required for maintenance of CLCuMuB by one of its cognate begomoviruses (cotton leaf curl Rajasthan virus) differs from the sequences required for maintenance by CbLCuV. The significance of these findings and, particularly, the threat that betasatellites pose to agriculture in the NW, are discussed.


Virus Genes | 2000

Clones of cotton leaf curl geminivirus induce symptoms atypical of cotton leaf curl disease.

Rob W. Briddon; Shahid Mansoor; Ian D. Bedford; Marion S. Pinner; P. G. Markham

The causative agent of cotton leaf curl disease has previously been shown to be transmissible by the whitefly Bemisia tabaci (Gennadius) and a begomovirus (Geminiviridae) was shown to be associated with the disease. This virus was provisionally called cotton leaf curl virus (CLCuV) although no causal relationship between virus and disease was shown. In the present study full-length clones of CLCuV, equivalent to the DNA A component of bipartite begomoviruses, were obtained. The clones of CLCuV were systemically infectious to both Nicotiana benthamiana and cotton. Infected plants did not exhibit symptoms characteristic of cotton leaf curl disease, producing mild leaf curling, yellowing and some stunting. Efforts to identify a second genomic component were not successful. These findings suggest that the begomovirus, CLCuV, is not or not the sole cause of cotton leaf curl disease. The transmission of cotton leaf curl disease by B. tabaci, however, may indicate that the begomovirus plays a part in the transmission of the disease. The implications of these findings are discussed.


Journal of Virology | 2005

The Nuclear Shuttle Protein of Tomato Leaf Curl New Delhi Virus Is a Pathogenicity Determinant

M. Hussain; Shahid Mansoor; S. Iram; Ayesha Naureen Fatima; Yusuf Zafar

ABSTRACT The role of the movement protein (MP) and nuclear shuttle protein (NSP) in the pathogenicity of Tomato leaf curl New Delhi virus (ToLCNDV), a bipartite begomovirus, was studied. Both genes were expressed in Nicotiana benthamiana, Nicotiana tabacum, and Lycopersicon esculentum plants with the Potato virus X (PVX) expression vector or by stable transformation of gene constructs under the control of the 35S promoter in N. tabacum. No phenotypic changes were observed in any of the three species when the MP was expressed from the PVX vector or constitutively expressed in transgenic plants. Expression of the ToLCNDV NSP from the PVX vector in N. benthamiana resulted in leaf curling that is typical of the disease symptoms caused by ToLCNDV in this species. Expression of NSP from PVX in N. tabacum and L. esculentum resulted in a hypersensitive response (HR), demonstrating that the ToLCVDV NSP is a target of host defense responses in these hosts. The NSP, when expressed as a transgene under the control of the 35S promoter, resulted in necrotic lesions in expanded leaves that initiated from a point and then spread across the leaf. The necrotic response was systemic in all the transgenic plants. Deletion of 100 amino acids from the C terminus did not compromise the HR response, suggesting that this region has no role in HR. Deletion of 60 or 100 amino acids from the N terminus of NSP abolished the HR response, suggesting that these sequences are required for the HR response. These findings demonstrate that the ToLCNDV NSP is a pathogenicity determinant as well as a target of host defense responses.

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Rob W. Briddon

National Institute for Biotechnology and Genetic Engineering

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Imran Amin

National Institute for Biotechnology and Genetic Engineering

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Yusuf Zafar

Pakistan Atomic Energy Commission

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M. Hussain

National Institute for Biotechnology and Genetic Engineering

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Muhammad Saeed

National Institute for Biotechnology and Genetic Engineering

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Shaheen Asad

National Institute for Biotechnology and Genetic Engineering

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Syed Shan-e-Ali Zaidi

National Institute for Biotechnology and Genetic Engineering

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Khalid Pervaiz Akhtar

Nuclear Institute for Agriculture and Biology

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K. A. Malik

Forman Christian College

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