SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2034505818> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2034505818 endingPage "411" @default.
W2034505818 startingPage "399" @default.
W2034505818 abstract "Microarray technologies for measuring mRNA abundances in cells allow monitoring of gene expression levels for tens of thousands of genes in parallel. By measuring expression responses across hundreds of different conditions or timepoints a relatively detailed gene expression map starts to emerge. Using cluster analysis techniques, it is possible to identify genes that are consistently coexpressed under several different conditions or treatments. These sets of coexpressed genes can then be compared to existing knowledge about biochemical or signalling pathways, the function of unknown genes can be hypothesised by comparing them to other genes with characterised function, or from trends in expression profiles in general — why cell needs to transcribe or silence the genes during particular treatment. The regulation of genes on the DNA level is largely guided by particular sequence features, the transcription factor binding sites, and other signals encaptured in DNA. By analyzing the regulatory regions of the DNA of the genes consistently coexpressed, we can discover the potential signals hidden in DNA by computational analysis methods. The prerequisite for this kind of analysis is the existence of genomic DNA sequence, knowledge about gene locations, and experimental gene expression measurements for a variety of conditions. This article surveys some of the analysis methods and studies for such a computational discovery approach for yeast Saccharomyces cerevisiae." @default.
W2034505818 created "2016-06-24" @default.
W2034505818 creator A5011429527 @default.
W2034505818 creator A5020277728 @default.
W2034505818 date "2001-12-01" @default.
W2034505818 modified "2023-10-03" @default.
W2034505818 title "Regulatory sequence analysis: application to the interpretation of gene expression" @default.
W2034505818 cites W1483073028 @default.
W2034505818 cites W1556472699 @default.
W2034505818 cites W1680359239 @default.
W2034505818 cites W1774711529 @default.
W2034505818 cites W1849539769 @default.
W2034505818 cites W1964007348 @default.
W2034505818 cites W1976208596 @default.
W2034505818 cites W1981800986 @default.
W2034505818 cites W1989297334 @default.
W2034505818 cites W1992419399 @default.
W2034505818 cites W1998300401 @default.
W2034505818 cites W2003967338 @default.
W2034505818 cites W2005244073 @default.
W2034505818 cites W2009566340 @default.
W2034505818 cites W2014459399 @default.
W2034505818 cites W2017200304 @default.
W2034505818 cites W2026882865 @default.
W2034505818 cites W2032231928 @default.
W2034505818 cites W2032991899 @default.
W2034505818 cites W2043710019 @default.
W2034505818 cites W2056002855 @default.
W2034505818 cites W2058536752 @default.
W2034505818 cites W2059513841 @default.
W2034505818 cites W2060406328 @default.
W2034505818 cites W2060563775 @default.
W2034505818 cites W2062402656 @default.
W2034505818 cites W2065660771 @default.
W2034505818 cites W2070708981 @default.
W2034505818 cites W2077609634 @default.
W2034505818 cites W2080204223 @default.
W2034505818 cites W2084908610 @default.
W2034505818 cites W2092840781 @default.
W2034505818 cites W2099388441 @default.
W2034505818 cites W2099627123 @default.
W2034505818 cites W2103453943 @default.
W2034505818 cites W2107233900 @default.
W2034505818 cites W2114332734 @default.
W2034505818 cites W2115772919 @default.
W2034505818 cites W2121252285 @default.
W2034505818 cites W2124332179 @default.
W2034505818 cites W2135000328 @default.
W2034505818 cites W2135187880 @default.
W2034505818 cites W2135951244 @default.
W2034505818 cites W2137540340 @default.
W2034505818 cites W2138607329 @default.
W2034505818 cites W2142460132 @default.
W2034505818 cites W2142890842 @default.
W2034505818 cites W2144710927 @default.
W2034505818 cites W2145295592 @default.
W2034505818 cites W2146264532 @default.
W2034505818 cites W2147055980 @default.
W2034505818 cites W2149769193 @default.
W2034505818 cites W2150926065 @default.
W2034505818 cites W2156026066 @default.
W2034505818 cites W2158776283 @default.
W2034505818 cites W2161153660 @default.
W2034505818 cites W2162114340 @default.
W2034505818 cites W2165011536 @default.
W2034505818 cites W2168157737 @default.
W2034505818 cites W2169351355 @default.
W2034505818 cites W4241827326 @default.
W2034505818 cites W4248318091 @default.
W2034505818 doi "https://doi.org/10.1016/s0924-977x(01)00117-1" @default.
W2034505818 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/11704417" @default.
W2034505818 hasPublicationYear "2001" @default.
W2034505818 type Work @default.
W2034505818 sameAs 2034505818 @default.
W2034505818 citedByCount "22" @default.
W2034505818 countsByYear W20345058182012 @default.
W2034505818 countsByYear W20345058182013 @default.
W2034505818 countsByYear W20345058182015 @default.
W2034505818 countsByYear W20345058182019 @default.
W2034505818 crossrefType "journal-article" @default.
W2034505818 hasAuthorship W2034505818A5011429527 @default.
W2034505818 hasAuthorship W2034505818A5020277728 @default.
W2034505818 hasConcept C101762097 @default.
W2034505818 hasConcept C104317684 @default.
W2034505818 hasConcept C114009990 @default.
W2034505818 hasConcept C14036430 @default.
W2034505818 hasConcept C150194340 @default.
W2034505818 hasConcept C165864922 @default.
W2034505818 hasConcept C18431079 @default.
W2034505818 hasConcept C21592294 @default.
W2034505818 hasConcept C2777576037 @default.
W2034505818 hasConcept C33498276 @default.
W2034505818 hasConcept C3662595 @default.
W2034505818 hasConcept C51679486 @default.
W2034505818 hasConcept C54355233 @default.
W2034505818 hasConcept C552990157 @default.
W2034505818 hasConcept C61053724 @default.
W2034505818 hasConcept C70721500 @default.