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Fast and accurate machine learning based approach to detect inter kingdom horizontally transferred genes in Eukaryotes Conference paper
Parsania, C., Li, A., Ho, J., Wong, K. H.. Fast and accurate machine learning based approach to detect inter kingdom horizontally transferred genes in Eukaryotes[C], 2018.
Authors:  Parsania, C.;  Li, A.;  Ho, J.;  Wong, K. H.
Favorite |  | Submit date:2022/07/27
machine learning  inter kingdom  horizontally transferred  genes  Eukaryotes  
Comprehensive analysis of chromatin landscape in pathogenic and non-pathogenic fungi. Conference paper
Wang, X., Parsania, C., Wang, F., Sethiya, P., Qin, L., Rai, N., Djordjevic, D., Tan, K., Ho, J., Wong, K. H.. Comprehensive analysis of chromatin landscape in pathogenic and non-pathogenic fungi.[C], 2018.
Authors:  ; et al.
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Histones  CHIP-seq  transcription factors  fungi  pathogenic  
Fast and accurate machine learning based approach to detect inter kingdom horizontally transferred genes in Eukaryotes Conference paper
Parsania, C., Ho, J., Wong, K. H.. Fast and accurate machine learning based approach to detect inter kingdom horizontally transferred genes in Eukaryotes[C], 2018.
Authors:  Parsania, C.;  Ho, J.;  Wong, K. H.
Favorite |  | Submit date:2022/07/27
inter-kingdom  horizontally transferred genes  Eukaryotes  
Transcriptional dynamics during interactions of human fungal pathogens with macrophages. Conference paper
Rai, N., Wang, F., Parsania, C., Sethiya, P., Tan, K., Wong, K. H.. Transcriptional dynamics during interactions of human fungal pathogens with macrophages.[C], 2018.
Authors:  Rai, N.;  Wang, F.;  Parsania, C.;  Sethiya, P.;  Tan, K.; et al.
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human pathogen  transcription  macrophages  
Candida glabrata Xbp1 represses early transcription response during interaction with host macrophages Conference paper
Rai, N., Parsania, C., Rai, R., Wong, K. H.. Candida glabrata Xbp1 represses early transcription response during interaction with host macrophages[C], 2017.
Authors:  Rai, N.;  Parsania, C.;  Rai, R.;  Wong, K. H.
Favorite |  | Submit date:2022/08/19
Candida glabrata  Xbp1  transcription  host  
CgXBP1 modulates temporal transcriptional dynamics in human fungal pathogen Candida glabrata during interaction with host macrophages Conference paper
Rai, M.N., Parsania, C., Tan, K., Wong, K. H.. CgXBP1 modulates temporal transcriptional dynamics in human fungal pathogen Candida glabrata during interaction with host macrophages[C], 2017.
Authors:  Rai, M.N.;  Parsania, C.;  Tan, K.;  Wong, K. H.
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Candidia glabrata  Xbp1  
Aspergillus nidulans AreA modulates its own transcriptional activity through controlling degradation of its co-repressor NmrA by a protease of insect origin. Conference paper
Li, A., Parsania, C., Todd, R.B, Tan, K., Wong, K. H.. Aspergillus nidulans AreA modulates its own transcriptional activity through controlling degradation of its co-repressor NmrA by a protease of insect origin.[C], 2017.
Authors:  Li, A.;  Parsania, C.;  Todd, R.B;  Tan, K.;  Wong, K. H.
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AreA  NmrA  Aspergillus nidulans  
PBrowse: A web-based platform for real-time collaborative exploration of genomic data Journal article
Szot P.S., Yang A., Wang X., Parsania C., Rohm U., Wong K.H., Ho J.W.K.. PBrowse: A web-based platform for real-time collaborative exploration of genomic data[J]. Nucleic Acids Research, 2017, 45(9).
Authors:  Szot P.S.;  Yang A.;  Wang X.;  Parsania C.;  Rohm U.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:4 | Submit date:2019/01/16
CgXbp1 modulates temporal transcriptional dynamics in human fungal pathogen Candida glabrata during interaction with host macrophages. Conference paper
Rai, M. N., Parsania, C., Rai, R., Wong, K. H.. CgXbp1 modulates temporal transcriptional dynamics in human fungal pathogen Candida glabrata during interaction with host macrophages.[C], 2017.
Authors:  Rai, M. N.;  Parsania, C.;  Rai, R.;  Wong, K. H.
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Candida  fungal infection  
CRISPR/dCas9-mediated transcriptional activation in Aspergillus nidulans Conference paper
Guo, S., Parsania, C., Dong, L., Wong, K. H.. CRISPR/dCas9-mediated transcriptional activation in Aspergillus nidulans[C], 2017.
Authors:  Guo, S.;  Parsania, C.;  Dong, L.;  Wong, K. H.
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CRISPR  nidulans