SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1970873267> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W1970873267 endingPage "175" @default.
W1970873267 startingPage "164" @default.
W1970873267 abstract "The European DNA profiling group (EDNAP) mtDNA population database (EMPOP) is an international collaborative project between DNA laboratories performing mtDNA analysis and the DNA laboratory of the Institute of Legal Medicine (GMI) in Innsbruck, Austria. The goal is to set up a directly accessible mtDNA population database, which can be used in routine forensic casework for frequency investigations. Here we describe a safe laboratory scheme involving electronical data handling and computer-aided data transfer, which help to minimize errors originating from potential sample mix-up, data misinterpretation and incorrect transcription. The procedure is demonstrated by example of an mtDNA control region population study on 273 unrelated individuals from Austria. Our population sample was compared with five other European populations via an analysis of molecular variance (AMOVA). The inclusion of regions outside HVS-I and HVS-II increased the amount of information on the haplogroup diagnostic sites in the control region. Most of the haplotypes in Austrians fell into haplogroups H, J, K, T, and U. The random match probability in Austrians was 1:125; the average number of nucleotide differences between individuals in the Austrian database was 9.32." @default.
W1970873267 created "2016-06-24" @default.
W1970873267 creator A5007975306 @default.
W1970873267 creator A5018138430 @default.
W1970873267 creator A5047041681 @default.
W1970873267 creator A5051669304 @default.
W1970873267 creator A5060079840 @default.
W1970873267 date "2007-03-01" @default.
W1970873267 modified "2023-10-07" @default.
W1970873267 title "Generating population data for the EMPOP database—An overview of the mtDNA sequencing and data evaluation processes considering 273 Austrian control region sequences as example" @default.
W1970873267 cites W1546375972 @default.
W1970873267 cites W1574819342 @default.
W1970873267 cites W1578184635 @default.
W1970873267 cites W1966800398 @default.
W1970873267 cites W1967521781 @default.
W1970873267 cites W1974472861 @default.
W1970873267 cites W1975213815 @default.
W1970873267 cites W1975460151 @default.
W1970873267 cites W1995011055 @default.
W1970873267 cites W1997741262 @default.
W1970873267 cites W2010766856 @default.
W1970873267 cites W2014415254 @default.
W1970873267 cites W2017035597 @default.
W1970873267 cites W2031093450 @default.
W1970873267 cites W2035305815 @default.
W1970873267 cites W2036926840 @default.
W1970873267 cites W2044755609 @default.
W1970873267 cites W2056207603 @default.
W1970873267 cites W2069135751 @default.
W1970873267 cites W2095915630 @default.
W1970873267 cites W2099035525 @default.
W1970873267 cites W2099702547 @default.
W1970873267 cites W2103917631 @default.
W1970873267 cites W2104591129 @default.
W1970873267 cites W2105812971 @default.
W1970873267 cites W2107443308 @default.
W1970873267 cites W2109127828 @default.
W1970873267 cites W2109291482 @default.
W1970873267 cites W2110784032 @default.
W1970873267 cites W2122449160 @default.
W1970873267 cites W2124109391 @default.
W1970873267 cites W2129744049 @default.
W1970873267 cites W2130026447 @default.
W1970873267 cites W2131962032 @default.
W1970873267 cites W2134581361 @default.
W1970873267 cites W2148546626 @default.
W1970873267 cites W2148756480 @default.
W1970873267 cites W2163228900 @default.
W1970873267 cites W2164291978 @default.
W1970873267 cites W2170267844 @default.
W1970873267 cites W2180060358 @default.
W1970873267 cites W40901199 @default.
W1970873267 cites W4238404866 @default.
W1970873267 doi "https://doi.org/10.1016/j.forsciint.2006.05.006" @default.
W1970873267 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/16829006" @default.
W1970873267 hasPublicationYear "2007" @default.
W1970873267 type Work @default.
W1970873267 sameAs 1970873267 @default.
W1970873267 citedByCount "92" @default.
W1970873267 countsByYear W19708732672012 @default.
W1970873267 countsByYear W19708732672013 @default.
W1970873267 countsByYear W19708732672014 @default.
W1970873267 countsByYear W19708732672015 @default.
W1970873267 countsByYear W19708732672016 @default.
W1970873267 countsByYear W19708732672017 @default.
W1970873267 countsByYear W19708732672018 @default.
W1970873267 countsByYear W19708732672019 @default.
W1970873267 countsByYear W19708732672020 @default.
W1970873267 countsByYear W19708732672021 @default.
W1970873267 countsByYear W19708732672022 @default.
W1970873267 countsByYear W19708732672023 @default.
W1970873267 crossrefType "journal-article" @default.
W1970873267 hasAuthorship W1970873267A5007975306 @default.
W1970873267 hasAuthorship W1970873267A5018138430 @default.
W1970873267 hasAuthorship W1970873267A5047041681 @default.
W1970873267 hasAuthorship W1970873267A5051669304 @default.
W1970873267 hasAuthorship W1970873267A5060079840 @default.
W1970873267 hasConcept C104317684 @default.
W1970873267 hasConcept C124101348 @default.
W1970873267 hasConcept C135763542 @default.
W1970873267 hasConcept C140505726 @default.
W1970873267 hasConcept C185592680 @default.
W1970873267 hasConcept C197754878 @default.
W1970873267 hasConcept C19811304 @default.
W1970873267 hasConcept C198531522 @default.
W1970873267 hasConcept C201526758 @default.
W1970873267 hasConcept C205649164 @default.
W1970873267 hasConcept C24586158 @default.
W1970873267 hasConcept C2778050382 @default.
W1970873267 hasConcept C2908647359 @default.
W1970873267 hasConcept C41008148 @default.
W1970873267 hasConcept C43617362 @default.
W1970873267 hasConcept C54355233 @default.
W1970873267 hasConcept C71924100 @default.
W1970873267 hasConcept C77088390 @default.
W1970873267 hasConcept C78458016 @default.
W1970873267 hasConcept C86803240 @default.
W1970873267 hasConcept C99454951 @default.