Analysis of Intraviral Protein-Protein Interactions of the SARS Coronavirus ORFeome

Brunn, Albrecht von; Teepe, Carola; Simpson, Jeremy C.; Pepperkok, Rainer; Friedel, Caroline C.; Zimmer, Ralf; Roberts, Rhonda; Baric, Ralph S.; Haas, Juergen

doi:10.1371/journal.pone.0000459

Cited by 227 publications

(339 citation statements)

References 49 publications

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“…A large number of possible protein-protein interactions between coronavirus pp1a/pp1ab subunits have been identified in various in vitro studies and the data obtained are not consistent in all cases. [94][95][96] To further complicate things, protein-protein interactions may be transient, occurring only at specific steps in the viral life cycle, or have accessory rather than essential roles. The…”

Section: The Role Of Nendou In Nidovirus Replicationmentioning

confidence: 99%

Nidovirus ribonucleases: Structures and functions in viral replication

Ulferts¹,

Ziebuhr²

2011

RNA Biology

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Section: The Role Of Nendou In Nidovirus Replicationmentioning

confidence: 99%

Nidovirus ribonucleases: Structures and functions in viral replication

Ulferts¹,

Ziebuhr²

2011

RNA Biology

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“…This section will delineate the scenario of protein interaction network analysis of some of these species including viruses, bacteria and protozoan parasites (Table 1). Amongst these, the topology of intra-viral networks of different members of herpesvirus family (viz., Kaposi's clustering coefficient and network diameter [76][77][78][79][80][81][82]. The analysis revealed that viral networks appear as single, highly coupled modules with relatively many hubs and few 'peripheral' nodes, in contrast to scale-free cellular networks having well-separated functional modules.…”

Section: Analyses Of Pathogenic Pins: Intra-and Interspecies Scenariomentioning

confidence: 99%

Computational analysis of protein interaction networks for infectious diseases

Pan¹,

Lahiri²,

Rajendiran³

et al. 2015

Brief Bioinform

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Infectious diseases caused by pathogens, including viruses, bacteria and parasites, pose a serious threat to human health worldwide. Frequent changes in the pattern of infection mechanisms and the emergence of multidrug resistant strains among pathogens have weakened the current treatment regimen. This necessitates the development of new therapeutic interventions to prevent and control such diseases. To cater to the need, analysis of protein interaction networks (PINs) has gained importance as one of the promising strategies. The present review aims to discuss various computational approaches to analyse the PINs in context to infectious diseases. Topology and modularity analysis of the network with their biological relevance, and the scenario till date about host-pathogen and intra-pathogenic protein interaction studies were delineated. This would provide useful insights to the research community thereby enabling them to design novel biomedicine against such infectious diseases.

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“…Yeast two-hybrid screening Human Fetal Brain Matchmaker cDNA library (Clontech, Palo Alto, USA) cloned into the vector pGADT7 was used to transfect the yeast strain Y187, and the transfected strain was used for two-hybrid screening [24]. The pGBKT7-FXR1 recombinant plasmid was transfected into the yeast strain AH109, which was then used as the bait to screen the library.…”

Section: Strains and Growth Conditionsmentioning

confidence: 99%

Bcl-2-associated transcription factor 1 interacts with fragile X-related protein 1

Ma¹,

Wang²,

Bin-yuan³

et al. 2014

ABBS

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The absence of fragile X mental retardation protein (FMRP) causes fragile X syndrome (FXS), which is the leading cause of hereditary mental retardation. Fragile X-related protein 1 (FXR1P), which plays an important role in normal muscle development, is one of the two autosomal paralogs of FMRP. To understand the functions of FXR1P, we screened FXR1P-interacting proteins by using a yeast two-hybrid system. The fragile X-related gene 1 (FXR1) was fused to pGBKT7 and then used as the bait to screen the human fetal brain cDNA library. The screening results revealed 10 FXR1P-interacting proteins including Bcl-2-associated transcription factor 1 (BTF). The interaction between FXR1P and BTF was confirmed by using both b-galactosidase assay and growth test in selective media. Co-immunoprecipitation assay in mammalian cells was also carried out to confirm the FXR1P/BTF interaction. Moreover, we confirmed that BTF co-localized with FXR1P in the cytoplasm around the nucleus in rat vascular smooth muscle cells by using confocal fluorescence microscopy. These results provide clues to elucidate the relationship between FXR1P and FXS.

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Analysis of Intraviral Protein-Protein Interactions of the SARS Coronavirus ORFeome

Cited by 227 publications

References 49 publications

Nidovirus ribonucleases: Structures and functions in viral replication

Nidovirus ribonucleases: Structures and functions in viral replication

Computational analysis of protein interaction networks for infectious diseases

Bcl-2-associated transcription factor 1 interacts with fragile X-related protein 1

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