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SSHscreen is a data analysis pipeline developed to identify clones in cDNA libraries that are significantly differentially expressed, and to determine if they were rare or abundant in the original treated sample. This approach, using "linear models for microarray data” (limma) functions in the R computing environment, facilitates the choice of clones from the cDNA library for further analysis, such as DNA sequencing, Northern blotting, RT-PCR, or detailed expression profiling using a custom cDNA microarray. Plots generated by SSHscreen are a useful tool for choosing anonymous clones for sequencing, since redundant clones cluster together on the enrichment ratio plots.

 

SSHdb is a tool for sequence management and annotation of SSH cDNA libraries. Different SSH libraries are managed as different projects, and users can register for specific projects in order to view the top table and sequence information linked to that project

 


MADIBA (MicroArray Data Interface for Biological Annotation) is a web-based tool used for the post-processing of microarray clusters (Law PJ, Claudel-Renard C, Joubert F, Louw AI, Berger DK (2008) MADIBA: A web server toolkit for biological interpretation of Plasmodium and plant gene clusters BMC Genomics 9: 105).

After a microarray experiment is performed, several clusters can be found. It is thought that since the genes in the clusters have similar expression profiles, they will also have similar biological implications. However, additional information is required in order to determine what the cluster of genes means in terms of the biology.

MADIBA aims to solve this by giving the user a comprehensive overview and interpretation of the expression profiles, by annotating the cluster of genes using biological information, and graphically visualising the analyses for easy interpretation.

MADIBA subjects a cluster of genes to five different analyses:

1) a search of over-represented Gene Ontology terms in the cluster;

2) visualisation of metabolic pathways using the KEGG representation;

3) visualisation of the chromosomal localisation;

4) searches for over-represented motifs in the upstream regions of the genes;

5) and an organism specific module: either a search for genes without human homologues for potential drug targets against Plasmodium, or homologues between rice and Arabidopsis for plant sequences.

MADIBA currently contains data for Plasmodium, Arabidopsis, rice and Pectobacterium atrosepticum.

 

Spotverify is a publicly available web-accessed software package for verification of spot colour on two colour Cy-dye microarray images. The software is used to verify that differentially expressed genes identified by complex statistical analyses such as SSHscreen do correspond to bright red or green spots on the original microarray images.

 

This is a resource for obtaining annotations of the probes on the Maize Agilent-016047 4x44k microarray.

Functionalities of the database:

1. Search Agilent Slide
Get the position of any probe(s) on the B73 genome sequence (v2) as well as the functional annotation of its corresponding gene, by submitting probe / gene / EST identifiers.
2. Blast sequences
Blast any sequence(s) against the Agilent slide to identify which probes represent the query sequence best.
3. Get sequences from GenBank
Get DNA sequences from GenBank, by submitting any GenBank accession numbers (only nucleotide databases are searched).
Coetzer N, Myburg AA and Berger DK (2011) Maize microarray annotation database. Plant Methods 7 (1), 31 (http://www.plantmethods.com/content/7/1/31)

New Publications

Abkallo HM, Arbuthnot P, Auer TO, Berger DK, Burger J, Chakauya E, Concordet J-P, Diabate A, Di Donato V, Groenewald J-H, Guindo A, Koekemoer LL, Nazare F, Nolan T, Okumu F, Orefuwa E, Paemka L, Prieto-Godino L, Runo S, Sadler M, Tesfaye K, Tripathi L, Wondji C. (2024) Making genome editing a success story in Africa. Nature Biotechnology :1-4. https://rdcu.be/dBJUa
Robert R, Robberste N, Thompson GD, Read DA. (2024) Characterization of macadamia ringspot‑associated virus, a novel Orthotospovirus associated with Macadamia integrifolia in South Africa. European Journal of Plant Pathology 10.1007/s10658-024-02832-1 PDF
Hiroyuki S, Marincowitz S, Roux J, Paap T, Wingfield BD, Wingfield MJ. (2024) A new genus and species of Cryphonectriaceae causing stem cankers on plantation eucalypts in South Africa. Plant Pathology :1-14. 10.1111/ppa.13883 PDF
Mapfumo P, Buthelezi S, Archer E, Swanevelder DZH, Wilken PM, Creux N. (2024) In-field climatic factors driving Sclerotinia head rot progression across different sunflower planting dates. Plant Pathology 10.1111/ppa.13873
Price J-L, Visagie CM, Meyer H, Yilmaz N. (2024) Fungal species and mycotoxins Associated with Maize ear rots collected from the Eastern Cape in South Africa. Toxins 16:95. 10.3390/toxins16020095
Tarigan M, Wingfield MJ, Jami F, Marpaung YMAN, Duran A, Pham NQ. (2024) Pathogenicity of Chrysoporthe deuterocubensis on eucalypts in Indonesia. Southern Forests: a Journal of Forest Science 10.2989/20702620.2023.2279054
Caballol M, Serradó F, Barnes I, Camarero JJ, Valeriano C, Colangelo M, Oliva J. (2024) Climate, host ontogeny and pathogen structural specificity determine forest disease distribution at a regional scale. Ecography :e06974. 10.1111/ecog.06974 PDF
MISEV Consortium, Motaung T. (2024) Minimal information for studies of extracellular vesicles (MISEV2023): From basic to advanced approaches. Journal of Extracellular Vesicles 13(2):e12404. 10.1002/jev2.12404
Pham NQ, Suzuki H, Duong TA, Wingfield BD, Barnes I, Duran A, Wingfield MJ. (2024) Cryptic sexual reproduction in an emerging Eucalyptus shoot and foliar pathogen. Plant Pathology 10.1111/ppa.13876
Francinah M. Ratsoma, Nthabiseng Z. Mokoena, Quentin C. Santana, Brenda D. Wingfield, Emma T. Steenkamp, Thabiso E. Motaung. (2024) Characterization of the Fusarium circinatum biofilm environmental response role. Journal of Basic Microbiology 00(00):1-16. 10.1002/jobm.202300536
Morrison EW, Duong TA, Garnas JR. (2024) A high-quality draft genome sequence of Neonectria faginata, causative agent of beech bark disease of Fagus grandifolia. Microbiology Resource Announcements 10.1128/mra.01048-23
Roberts E, Paap T, Roets F. (2024) Chemical control of the Polyphagous Shothole Borer beetle (PSHB, Euwallacea fornicatus) and Fusarium euwallaceae in American sweetgum (Liquidambar styraciflua). Journal of Plant Pathology 10.1007/s42161-023-01583-y
Fitza KNE, Allison J, Slippers B, Chingandu N, Reed SE. (2024) Diversity and potential sources of introduction of the Beech leaf nematode (Litylenchus crenatae< mccannii) to Ontario, Canada. Canadian Journal of Plant Pathology
Engelbrecht K, Raubenheimer I, Paap T, Neethling E, Roets F. (2024) Detection of Fusarium euwallaceae and its vector Euwallacea fornicatus on Pear (Pyrus communis) and in deciduous fruit orchards in South Africa. Australasian Plant Disease Notes 19(1) 10.1007/s13314-023-00524-z PDF
Visagie CM, Meijer M, Kraak B, Groenewald M, Houbraken J, Theelen B, Vorst Y, Boekhout T. (2024) Blastobotrys nigripullensis, a new yeast species isolated from a fungal outbreak on an ancient Roman shipwreck in the Netherlands. Antonie Van Leeuwenhoek 117:22. 10.1007/s10482-023-01898-x
Hlongwane NL, Dzomba EF, Hadebe K, van der Nest MA, Pierneef R, Muchadeyi FC. (2024) Identification of signatures of positive selection that have shaped the genomic landscape of South African pig populations. Animals 14:235. 10.3390/ani14020236
De Vos L, van der Nest MA, Santana QC, van Wyk S, Leeuwendaal KS, Wingfield BD, Steenkamp ET. (2024) Chromosome-level assemblies for the pine pitch canker pathogen Fusarium circinatum. Pathogens 13(1):70. 10.3390/pathogens13010070
Chen BY, Wu WX, Chen SF. (2024) Wide distribution of Teratosphaeria epicoccoides and T. destructans associated with diseased Eucalyptus leaves in plantations in Southern China. Microorganisms 12:129. 10.3390/microorganisms12010129
Visagie CM, Yilmaz N, Kocsubé S, Frisvad JC, Hubka V, Samson RA, Houbraken J. (2024) A review of recently introduced Aspergillus, Penicillium, Talaromyces and other Eurotiales species. Studies in Mycology 107:1–66. 10.3114/sim.2024.107.01
Joubert M, van den Berg N, Theron J, Swart V. (2024) Global transcriptomic analysis in avocado nursery trees reveals differential gene expression during asymptomatic infection by avocado sunblotch viroid (ASBVd). Virus Research 339:199263. 10.1016/j.virusres.2023.199263. PDF