SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2065639405> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2065639405 endingPage "14" @default.
W2065639405 startingPage "5" @default.
W2065639405 abstract "Toxicogenomics represents the merging of toxicology with genomics and bioinformatics to investigate biological functions of genome in response to environmental contaminants. Aquatic species have traditionally been used as models in toxicology to characterize the actions of environmental stresses. Recent completion of the DNA sequencing for several fish species has spurred the development of DNA microarrays allowing investigators access to toxicogenomic approaches. However, since microarray technology is thus far limited to only a few aquatic species and derivation of biological meaning from microarray data is highly dependent on statistical arguments, the full potential of microarray in aquatic species research has yet to be realized. Herein we review some of the issues related to construction, probe design, statistical and bioinformatical data analyses, and current applications of DNA microarrays. As a model a recently developed medaka (Oryzias latipes) oligonucleotide microarray was described to highlight some of the issues related to array technology and its application in aquatic species exposed to hypoxia. Although there are known non-biological variations present in microarray data, it remains unquestionable that array technology will have a great impact on aquatic toxicology. Microarray applications in aquatic toxicogenomics will range from the discovery of diagnostic biomarkers, to establishment of stress-specific signatures and molecular pathways hallmarking the adaptation to new environmental conditions." @default.
W2065639405 created "2016-06-24" @default.
W2065639405 creator A5010299185 @default.
W2065639405 creator A5029691634 @default.
W2065639405 creator A5040902216 @default.
W2065639405 date "2007-02-01" @default.
W2065639405 modified "2023-10-16" @default.
W2065639405 title "DNA microarray technology in toxicogenomics of aquatic models: Methods and applications" @default.
W2065639405 cites W108176572 @default.
W2065639405 cites W1485108553 @default.
W2065639405 cites W1498862674 @default.
W2065639405 cites W1502936039 @default.
W2065639405 cites W1543900306 @default.
W2065639405 cites W1818733317 @default.
W2065639405 cites W1965251889 @default.
W2065639405 cites W1965653249 @default.
W2065639405 cites W1965730664 @default.
W2065639405 cites W1966670480 @default.
W2065639405 cites W1977918192 @default.
W2065639405 cites W1986980214 @default.
W2065639405 cites W1989297334 @default.
W2065639405 cites W1993671012 @default.
W2065639405 cites W1998146932 @default.
W2065639405 cites W1998558965 @default.
W2065639405 cites W2002414580 @default.
W2065639405 cites W2004182185 @default.
W2065639405 cites W2012108717 @default.
W2065639405 cites W2022955083 @default.
W2065639405 cites W2024685248 @default.
W2065639405 cites W2028217622 @default.
W2065639405 cites W2031842395 @default.
W2065639405 cites W2032283581 @default.
W2065639405 cites W2040139908 @default.
W2065639405 cites W2044367627 @default.
W2065639405 cites W2044686237 @default.
W2065639405 cites W2047477199 @default.
W2065639405 cites W2047792737 @default.
W2065639405 cites W2056455704 @default.
W2065639405 cites W2063339587 @default.
W2065639405 cites W2065498122 @default.
W2065639405 cites W2067878452 @default.
W2065639405 cites W2092165279 @default.
W2065639405 cites W2096451658 @default.
W2065639405 cites W2097568988 @default.
W2065639405 cites W2100649970 @default.
W2065639405 cites W2102615617 @default.
W2065639405 cites W2105723957 @default.
W2065639405 cites W2108864988 @default.
W2065639405 cites W2111696544 @default.
W2065639405 cites W2112466018 @default.
W2065639405 cites W2113474552 @default.
W2065639405 cites W2114578106 @default.
W2065639405 cites W2117607208 @default.
W2065639405 cites W2119319311 @default.
W2065639405 cites W2119539687 @default.
W2065639405 cites W2120848453 @default.
W2065639405 cites W2120991664 @default.
W2065639405 cites W2122510554 @default.
W2065639405 cites W2124130781 @default.
W2065639405 cites W2130238663 @default.
W2065639405 cites W2131251072 @default.
W2065639405 cites W2132308784 @default.
W2065639405 cites W2135164113 @default.
W2065639405 cites W2135990544 @default.
W2065639405 cites W2136015587 @default.
W2065639405 cites W2136352448 @default.
W2065639405 cites W2136490136 @default.
W2065639405 cites W2144227498 @default.
W2065639405 cites W2145299161 @default.
W2065639405 cites W2145517878 @default.
W2065639405 cites W2150926065 @default.
W2065639405 cites W2153038394 @default.
W2065639405 cites W2155598851 @default.
W2065639405 cites W2164911490 @default.
W2065639405 cites W2166265186 @default.
W2065639405 cites W2171062114 @default.
W2065639405 cites W2172240858 @default.
W2065639405 cites W4294107304 @default.
W2065639405 cites W4377200661 @default.
W2065639405 cites W72967156 @default.
W2065639405 cites W2336968922 @default.
W2065639405 doi "https://doi.org/10.1016/j.cbpc.2006.04.017" @default.
W2065639405 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16828578" @default.
W2065639405 hasPublicationYear "2007" @default.
W2065639405 type Work @default.
W2065639405 sameAs 2065639405 @default.
W2065639405 citedByCount "28" @default.
W2065639405 countsByYear W20656394052012 @default.
W2065639405 countsByYear W20656394052013 @default.
W2065639405 countsByYear W20656394052014 @default.
W2065639405 countsByYear W20656394052016 @default.
W2065639405 countsByYear W20656394052017 @default.
W2065639405 countsByYear W20656394052020 @default.
W2065639405 crossrefType "journal-article" @default.
W2065639405 hasAuthorship W2065639405A5010299185 @default.
W2065639405 hasAuthorship W2065639405A5029691634 @default.
W2065639405 hasAuthorship W2065639405A5040902216 @default.
W2065639405 hasConcept C104317684 @default.