Your search keyword '"Neuhuber, F."' showing total 49 results

1. Contamination incidents in the pre-analytical phase of forensic DNA analysis in Austria—Statistics of 17 years

Author

Pickrahn, Ines, Kreindl, Gabriele, Müller, Eva, Dunkelmann, Bettina, Zahrer, Waltraud, Cemper-Kiesslich, Jan, and Neuhuber, F.

Published

2017

2. Populationsgenetische Untersuchungen des AmpFLP-Systems YNZ22 in Österreich: Anwendung in forensischen Fragestellungen

Author

Neuhuber, F. and Radacher, M.

Published

1998

3. Inheritance and expression of a transgene insert in an aneuploid tobacco line

Author

Matzke, M. A., Moscone, E. A., Park, Y -D., Papp, I., Oberkofler, H., Neuhuber, F., and Matzke, A. J. M.

Published

1994

4. Susceptibility of transgene loci to homology-dependent gene silencing

Author

Neuhuber, F., Park, Y. D., Matzke, A. J. M., and Matzke, M. A.

Published

1994

5. Homology-dependent gene silencing in transgenic plants: epistatic silencing loci contain multiple copies of methylated transgenes

Author

Matzke, A. J. M., Neuhuber, F., Park, Y. D., Ambros, P. F., and Matzke, M. A.

Published

1994

6. Session 01 Cell structure and development

Author

De Agazio, M., Federico, R., Rea, E., Ciofi-Luzzatto, A., Zaccaria, M. L., Grego, S., Demchenko, N. P., Eleftheriou, E. P., Elliott, M. C., Fowler, M. R., Kirby, M., Scott, N. W., Slater, A., Gabarayeva, N. I., Gamalei, Y. V., Pakhomova, M. V., Sjutkina, A. V., Gazdová, B., Šlroký, J., Fajkus, J., Brzobohatý, B., Bezděk, M., Gottschalk, M., Schobert, C., Pecsvaradi, A., Leiker, G., Komor, E., Guralchuk, Zh. Z., Gurova, T. F., Hirsinger, C., Armentier, Y., Fleck, J., Jamet, E., Kharlamov, A. V., Kollmann, R., Koukalová, B., Kuhrová, V., Vyskot, B., Široký, J., Zapletalová, L., Kovařík, A., Holý, A., Bezděk, M., Kutík, J., Demmers-Derks, L., Lawlor, D. W., Nátr, L., Leitch, A. R., Glyn, M. C. P., Kingham, K., Machs, E. M., Grif, V. G., Matzke, A. J. M., Neuhuber, F., Park, Y. -D., Matzke, M. A., Miroslavov, E. A., Molas, J., Szymańska, M., Moore, I., Putnoky, I., Diefenthal, T., Staehelin, L. A., Schell, J., Palme, K., Petrov, I. A., Kurchiy, V. M., Porfirova, S. A., Kuznetsov, V. V., Ramsden, L., Szederkenyi, J., Shilova, N. V., Katomina, A. P., Sokolov, O. I., Gringauze, O. K., Richter, T. J., Sonesson, A., Widell, S., Tishchenko, E. N., Kuntsevitch, V. I., Bilinskaya, A. T., Vitha, S., Beneš, K., and Voznesenskaya, E. V.

Published

1994

7. A variety of epistatic interactions can occur between partially homologous transgene loci brought together by sexual crossing

Author

Matzke, M. A., Neuhuber, F., and Matzke, A. J. M.

Published

1993

8. Nine STR markers plus amelogenin (AmpF<STR Profiler Plus): a forensic study in an Austrian population

Author

Neuhuber, F., Radacher, M., Meisner, N., and Tutsch-Bauer, E.

Published

1999

9. Study on the STR TPOX in an Italian and an Austrian population using two different primer pairs and three different electrophoretic methods

Author

Ricci, U., Klintschar, M., Neuhuber, F., and Giovannucci Uzielli, M. L.

Published

1998

10. A study on the short tandem repeat system ACTBP2 (SE33) in an Austrian population sample

Author

Klintschar, M. and Neuhuber, F.

Published

1997

11. The hydrochemical problem

Author

Berger, F., Neuhuber, F., Illies, J., editor, and Löffler, H., editor

Published

1979

12. Phosphorus and nitrogen

Author

Neuhuber, F., Brossmann, H., Zahradnik, P., Illies, J., editor, and Löffler, H., editor

Published

1979

13. Oxygen conditions

Author

Neuhuber, F., Hammer, L., Illies, J., editor, and Löffler, H., editor

Published

1979

14. Phosphorus and Nitrogen in Neusiedlersee

Author

Neuhuber, F., Zahradnik, P., Brossmann, H., Dokulil, M., editor, Metz, H., editor, and Jewson, D., editor

Published

1980

15. F13B and CD4 allele frequencies in an Austrian population sample

Author

Neuhuber, F., Radacher, M., and Krasa, B.

Published

1996

16. Population genetic study of the AmpFLP system APO B in an Austrian population sample

Author

Neuhuber, F., Lamprecht, R., and Radacher, M.

Published

1996

17. Towards complete male individualization with rapidly mutating Y-chromosomal STRs

Author

Ballantyne, KN, Ralf, A, Aboukhalid, R, Achakzai, NM, Anjos, MJ, Ayub, Q, Balažic, J, Ballantyne, J, Ballard, DJ, Berger, B, Bobillo, C, Bouabdellah, M, Burri, H, Butler, J, Capal, T, Caratti, S, Carracedo, A, Cartault, F, Carvalho, EF, Cheng, B, Coble, MD, Comas, D, Corach, D, D'Amato, ME, Davison, S, de Carvalho, EF, de Knijff, Peter, de Ungria, M, Decorte, Ronny, Dobosz, T, Dupuy, BM, Elmrghni, S, Gliwinski, M, Gomes, SC, Grol, L, Haas, C, Hanson, E, Henke, J, Hill, CR, Holmlund, G, Honda, K, Immel, U, Inoue, S, Jobling, MA, Kaddura, M, Kim, JS, Kim, SH, Kim, W, King, TE, Klausriegler, E, Kling, D, Kovacevic, LL, Kovatsi, L, Krajewski, P, Kravchenko, S, Larmuseau, Maarten, Lee, EY, Lee, SH, Lessig, R, Livshits, LA, Marjanovic, D, Minarik, M, Mizuno, N, Moreira, H, Morling, N, Mukherjee, M, Nagaraju, J, Neuhuber, F, Nie, S, Nilasitsataporn, P, Nishi, T, Oh, HH, Olofsson, J, Onofri, V, Palo, JU, Pamjav, H, Parson, W, Payet, C, Petlach, M, Phillips, C, Ploski, R, Prasad, SPR, Primorac, D, Purnnomo, GA, Purps, J, Rangel, H, Rebala, K, Rerkamnuaychoke, B, Rey, D, Robino, C, Rodríguez, F, Roewer, L, Rosa, A, Sajantila, A, Sala, A, Salvador, J, Sanz, P, Schmitt, C, Sharma, AK, Silva, DA, Shin, KJ, Sijen, T, Sirker, M, Siváková, D, Skaro, V, Solano-Matamoros, C, Souto, L, Stenzl, V, Sudoyo, H, Syndercombe-Court, D, Tagliabracci, A, Taylor, D, Tillmar, A, Tsybovsky, IS, Tyler-Smith, C, van der Gaag, K, Vanek, D, Völgyi, A, Ward, D, Willemse, P, Winkler, C, Yap, EPH, Yong, RYY, Zupanic Pajnic, I, and Kayser, M

Subjects

haplotypes, paternal lineage, RM YSTRs, Y-STRs, forensic, Y-chromosome

Abstract

Relevant for various areas of human genetics, Y-chromosomal short tandem repeats (Y-STRs) are commonly used for testing close paternal relationships among individuals and populations, and for male lineage identification. However, even the widely used 17-loci Yfiler set cannot resolve individuals and populations completely. Here, 52 centers generated quality-controlled data of 13 rapidly mutating (RM) Y-STRs in 14,644 related and unrelated males from 111 worldwide populations. Strikingly, >99% of the 12,272 unrelated males were completely individualized. Haplotype diversity was extremely high (global: 0.9999985, regional: 0.99836–0.9999988). Haplotype sharing between populations was almost absent except for six (0.05%) of the 12,156 haplotypes. Haplotype sharing within populations was generally rare (0.8% nonunique haplotypes), significantly lower in urban (0.9%) than rural (2.1%) and highest in endogamous groups (14.3%). Analysis of molecular variance revealed 99.98% of variation within populations, 0.018% among populations within groups, and 0.002% among groups. Of the 2,372 newly and 156 previously typed male relative pairs, 29% were differentiated including 27% of the 2,378 father–son pairs. Relative to Yfiler, haplotype diversity was increased in 86% of the populations tested and overall male relative differentiation was raised by 23.5%. Our study demonstrates the value of RMY-STRs in identifying and separating unrelated and related males and provides a reference database. ispartof: Human Mutation vol:35 issue:8 pages:1021-1032 status: published

Published

2014

18. Toward Male Individualization with Rapidly Mutating Y-Chromosomal Short Tandem Repeats

Author

Ballantyne, K.N., Ralf, A., Aboukhalid, R., Achakzai, N.M., Anjos, M.J., Ayub, Q., Balazic, J., Ballantyne, J., Ballard, D.J., Berger, B., Bobillo, C., Bouabdellah, M., Burri, H., Capal, T., Caratti, S., Cardenas, J., Cartault, F., Carvalho, E.F., Carvalho, M., Cheng, B.W., Coble, M.D., Comas, D., Corach, D., D'Amato, M.E., Davison, S., Knijff, P. de, Ungria, M.C.A. de, Decorte, R., Dobosz, T., Dupuy, B.M., Elmrghni, S., Gliwinski, M., Gomes, S.C., Grol, L., Haas, C., Hanson, E., Henke, J., Henke, L., Herrera-Rodriguez, F., Hill, C.R., Holmlund, G., Honda, K., Immel, U.D., Inokuchi, S., Jobling, M.A., Kaddura, M., Kim, J.S., Kim, S.H., Kim, W., King, T.E., Klausriegler, E., Kling, D., Kovacevic, L., Kovatsi, L., Krajewski, P., Kravchenko, S., Larmuseau, M.H.D., Lee, E.Y., Lessig, R., Livshits, L.A., Marjanovic, D., Minarik, M., Mizuno, N., Moreira, H., Morling, N., Mukherjee, M., Munier, P., Nagaraju, J., Neuhuber, F., Nie, S.J., Nilasitsataporn, P., Nishi, T., Oh, H.H., Olofsson, J., Onofri, V., Palo, J.U., Pamjav, H., Parson, W., Petlach, M., Phillips, C., Ploski, R., Prasad, S.P.R., Primorac, D., Purnomo, G.A., Purps, J., Rangel-Villalobos, H., Rebala, K., Rerkamnuaychoke, B., Gonzalez, D.R., Robino, C., Roewer, L., Rosa, A., Sajantila, A., Sala, A., Salvador, J.M., Sanz, P., Schmitt, C., Sharma, A.K., Silva, D.A., Shin, K.J., Sijen, T., Sirker, M., Sivakova, D., Skaro, V., Solano-Matamoros, C., Souto, L., Stenzl, V., Sudoyo, H., Syndercombe-Court, D., Tagliabracci, A., Taylor, D., Tillmar, A., Tsybovsky, I.S., Tyler-Smith, C., Gaag, K.J. van der, Vanek, D., Volgyi, A., Ward, D., Willemse, P., Yap, E.P.H., Yong, R.Y.Y., Pajnic, I.Z., Kayser, M., Hjelt Institute (-2014), Forensic Medicine, PaleOmics Laboratory, and Genetic Identification

Subjects

Male, Rural Population, haplotypes, Y-chromosome, Y-STRs, RM Y-STRs, paternal lineage, forensic, Asia, Forensic Science, Urban Population, Cell- och molekylärbiologi, education, Paternity, Gene Frequency, Humans, Alleles, Chromosomes, Human, Y, 1184 Genetics, developmental biology, physiology, Genetic Variation, DNA Fingerprinting, RM Y-STRs, Y-STRs, Y-chromosome, forensic, haplotypes, paternal lineage, Pedigree, Europe, Genetics, Population, Africa, 3111 Biomedicine, Americas, Cell and Molecular Biology, Microsatellite Repeats, Rättsmedicin

Abstract

Relevant for various areas of human genetics, Y-chromosomal short tandem repeats (Y-STRs) are commonly used for testing close paternal relationships among individuals and populations, and for male lineage identification. However, even the widely used 17-loci Yfiler set cannot resolve individuals and populations completely. Here, 52 centers generated quality-controlled data of 13 rapidly mutating (RM) Y-STRs in 14,644 related and unrelated males from 111 worldwide populations. Strikingly, >99% of the 12,272 unrelated males were completely individualized. Haplotype diversity was extremely high (global: 0.9999985, regional: 0.99836-0.9999988). Haplotype sharing between populations was almost absent except for six (0.05%) of the 12,156 haplotypes. Haplotype sharing within populations was generally rare (0.8% nonunique haplotypes), significantly lower in urban (0.9%) than rural (2.1%) and highest in endogamous groups (14.3%). Analysis of molecular variance revealed 99.98% of variation within populations, 0.018% among populations within groups, and 0.002% among groups. Of the 2,372 newly and 156 previously typed male relative pairs, 29% were differentiated including 27% of the 2,378 father-son pairs. Relative to Yfiler, haplotype diversity was increased in 86% of the populations tested and overall male relative differentiation was raised by 23.5%. Our study demonstrates the value of RMY-STRs in identifying and separating unrelated and related males and provides a reference database. Published 2014 Wiley Periodicals, Inc.**

Published

2014

19. Phosphorus and nitrogen

Author

Neuhuber, F., primary, Brossmann, H., additional, and Zahradnik, P., additional

Published

1979

20. Oxygen conditions

Author

Neuhuber, F., primary and Hammer, L., additional

Published

1979

21. The hydrochemical problem

Author

Berger, F., primary and Neuhuber, F., additional

Published

1979

22. Toward Male Individualization with Rapidly Mutating Y-Chromosomal Short Tandem Repeats

Author

Ballantyne, K. (Kaye), Ralf, A. (Arwin), Aboukhalid, R. (Rachid), Achakzai, N.M. (Niaz), Anjos, T. (Tania), Ayub, Q. (Qasim), Balažic, J. (Jože), Ballantyne, J. (Jack), Ballard, D.J. (David), Berger, B. (Burkhard), Bobillo, C. (Cecilia), Bouabdellah, M. (Mehdi), Burri, H. (Helen), Capal, T. (Tomas), Caratti, S. (Stefano), Cárdenas, J. (Jorge), Cartault, F. (François), Carvalho, E.F. (Elizeu), Carvalho, M. (Margarete) de, Cheng, B. (Baowen), Coble, M.D. (Michael), Comas, D. (David), Corach, D. (Daniel), D'Amato, M. (Mauro), Davison, S. (Sean), Knijff, P. (Peter) de, Ungria, M.C.A. (Maria Corazon) de, Decorte, R. (Ronny), Dobosz, T. (Tadeusz), Dupuy, B.M. (Berit), Elmrghni, S. (Samir), Gliwiński, M. (Mateusz), Gomes, S.C. (Sara), Grol, L. (Laurens), Haas, C. (Cordula), Hanson, E. (Erin), Henke, J. (Jürgen), Henke, L. (Lotte), Herrera-Rodríguez, F. (Fabiola), Hill, C.R. (Carolyn), Holmlund, G. (Gunilla), Honda, K. (Katsuya), Immel, U.-D. (Uta-Dorothee), Inokuchi, S. (Shota), Jobling, R., Kaddura, M. (Mahmoud), Kim, J.S. (Jong), Kim, S.H. (Soon), Kim, W. (Wook), King, T.E. (Turi), Klausriegler, E. (Eva), Kling, D. (Daniel), Kovačević, L. (Lejla), Kovatsi, L. (Leda), Krajewski, P. (Paweł), Kravchenko, S. (Sergey), Larmuseau, M.H.D. (Maarten), Lee, E.Y. (Eun Young), Lessig, R. (Rüdiger), Livshits, L.A. (Ludmila), Marjanović, D. (Damir), Minarik, M. (Marek), Mizuno, N. (Natsuko), Moreira, H. (Helena), Morling, N. (Niels), Mukherjee, M. (Meeta), Munier, P. (Patrick), Nagaraju, J. (Javaregowda), Neuhuber, F. (Franz), Nie, S. (Shengjie), Nilasitsataporn, P. (Premlaphat), Nishi, T. (Takeki), Oh, H.H. (Hye), Olofsson, S. (Sylvia), Onofri, V. (Valerio), Palo, J. (Jukka), Pamjav, H. (Horolma), Parson, W. (Walther), Petlach, M. (Michal), Phillips, C. (Christopher), Ploski, R. (Rafal), Prasad, S.P.R. (Samayamantri P.), Primorac, D. (Dragan), Purnomo, G.A. (Gludhug), Purps, J. (Josephine), Rangel-Villalobos, H. (Hector), Reogonekbała, K. (Krzysztof), Rerkamnuaychoke, B. (Budsaba), Gonzalez, D.R. (Danel Rey), Robino, C. (Carlo), Roewer, L. (Lutz), Rosa, A. (Anna) de, Sajantila, A. (Antti), Sala, A. (Andrea), Salvador, J.M. (Jazelyn), Sanz, P. (Paula), Schmitt, C. (Christian), Sharma, A.K. (Anisha K.), Silva, D.A. (Dayse), Shin, K.-J. (Kyoung-Jin), Sijen, T. (Titia), Sirker, M. (Miriam), Siváková, D. (Daniela), Škaro, V. (Vedrana), Solano-Matamoros, C. (Carlos), Souto, L. (L.), Stenzl, V. (Vlastimil), Sudoyo, H. (Herawati), Syndercombe-Court, D. (Denise), Tagliabracci, A. (Adriano), Taylor, D. (Duncan), Tillmar, A. (Andreas), Tsybovsky, I.S. (Iosif), Tyler-Smith, C. (Chris), Gaag, K. (Kristiaan) van der, Vanek, D. (Daniel), Völgyi, A. (Antónia), Ward, D. (Denise), Willemse, P. (Patricia), Yap, E.P.H. (Eric), Yong, Z-Y. (Ze-Yie), Pajnič, I.Z. (Irena Zupanič), Kayser, M.H. (Manfred), Ballantyne, K. (Kaye), Ralf, A. (Arwin), Aboukhalid, R. (Rachid), Achakzai, N.M. (Niaz), Anjos, T. (Tania), Ayub, Q. (Qasim), Balažic, J. (Jože), Ballantyne, J. (Jack), Ballard, D.J. (David), Berger, B. (Burkhard), Bobillo, C. (Cecilia), Bouabdellah, M. (Mehdi), Burri, H. (Helen), Capal, T. (Tomas), Caratti, S. (Stefano), Cárdenas, J. (Jorge), Cartault, F. (François), Carvalho, E.F. (Elizeu), Carvalho, M. (Margarete) de, Cheng, B. (Baowen), Coble, M.D. (Michael), Comas, D. (David), Corach, D. (Daniel), D'Amato, M. (Mauro), Davison, S. (Sean), Knijff, P. (Peter) de, Ungria, M.C.A. (Maria Corazon) de, Decorte, R. (Ronny), Dobosz, T. (Tadeusz), Dupuy, B.M. (Berit), Elmrghni, S. (Samir), Gliwiński, M. (Mateusz), Gomes, S.C. (Sara), Grol, L. (Laurens), Haas, C. (Cordula), Hanson, E. (Erin), Henke, J. (Jürgen), Henke, L. (Lotte), Herrera-Rodríguez, F. (Fabiola), Hill, C.R. (Carolyn), Holmlund, G. (Gunilla), Honda, K. (Katsuya), Immel, U.-D. (Uta-Dorothee), Inokuchi, S. (Shota), Jobling, R., Kaddura, M. (Mahmoud), Kim, J.S. (Jong), Kim, S.H. (Soon), Kim, W. (Wook), King, T.E. (Turi), Klausriegler, E. (Eva), Kling, D. (Daniel), Kovačević, L. (Lejla), Kovatsi, L. (Leda), Krajewski, P. (Paweł), Kravchenko, S. (Sergey), Larmuseau, M.H.D. (Maarten), Lee, E.Y. (Eun Young), Lessig, R. (Rüdiger), Livshits, L.A. (Ludmila), Marjanović, D. (Damir), Minarik, M. (Marek), Mizuno, N. (Natsuko), Moreira, H. (Helena), Morling, N. (Niels), Mukherjee, M. (Meeta), Munier, P. (Patrick), Nagaraju, J. (Javaregowda), Neuhuber, F. (Franz), Nie, S. (Shengjie), Nilasitsataporn, P. (Premlaphat), Nishi, T. (Takeki), Oh, H.H. (Hye), Olofsson, S. (Sylvia), Onofri, V. (Valerio), Palo, J. (Jukka), Pamjav, H. (Horolma), Parson, W. (Walther), Petlach, M. (Michal), Phillips, C. (Christopher), Ploski, R. (Rafal), Prasad, S.P.R. (Samayamantri P.), Primorac, D. (Dragan), Purnomo, G.A. (Gludhug), Purps, J. (Josephine), Rangel-Villalobos, H. (Hector), Reogonekbała, K. (Krzysztof), Rerkamnuaychoke, B. (Budsaba), Gonzalez, D.R. (Danel Rey), Robino, C. (Carlo), Roewer, L. (Lutz), Rosa, A. (Anna) de, Sajantila, A. (Antti), Sala, A. (Andrea), Salvador, J.M. (Jazelyn), Sanz, P. (Paula), Schmitt, C. (Christian), Sharma, A.K. (Anisha K.), Silva, D.A. (Dayse), Shin, K.-J. (Kyoung-Jin), Sijen, T. (Titia), Sirker, M. (Miriam), Siváková, D. (Daniela), Škaro, V. (Vedrana), Solano-Matamoros, C. (Carlos), Souto, L. (L.), Stenzl, V. (Vlastimil), Sudoyo, H. (Herawati), Syndercombe-Court, D. (Denise), Tagliabracci, A. (Adriano), Taylor, D. (Duncan), Tillmar, A. (Andreas), Tsybovsky, I.S. (Iosif), Tyler-Smith, C. (Chris), Gaag, K. (Kristiaan) van der, Vanek, D. (Daniel), Völgyi, A. (Antónia), Ward, D. (Denise), Willemse, P. (Patricia), Yap, E.P.H. (Eric), Yong, Z-Y. (Ze-Yie), Pajnič, I.Z. (Irena Zupanič), and Kayser, M.H. (Manfred)

Abstract

Relevant for various areas of human genetics, Y-chromosomal short tandem repeats (Y-STRs) are commonly used for testing close paternal relationships among individuals and populations, and for male lineage identification. However, even the widely used 17-loci Yfiler set cannot resolve individuals and populations completely. Here, 52 centers generated quality-controlled data of 13 rapidly mutating (RM) Y-STRs in 14,644 related and unrelated males from 111 worldwide populations. Strikingly, >99% of the 12,272 unrelated males were completely individualized. Haplotype diversity was extremely high (global: 0.9999985, regional: 0.99836-0.9999988). Haplotype sharing between populations was almost absent except for six (0.05%) of the 12,156 haplotypes. Haplotype sharing within populations was generally rare (0.8% nonunique haplotypes), significantly lower in urban (0.9%) than rural (2.1%) and highest in endogamous groups (14.3%). Analysis

Published

2014

23. New sequence data of allelic variants at the STR loci ACTBP2 (SE33), D21S11, FGA, vWA, CSF1PO, D2S1338, D16S539, D18S51 and D19S433 in Caucasoids

Author

Dauber, E.M, primary, Bär, W, additional, Klintschar, M, additional, Neuhuber, F, additional, Parson, W, additional, Mueller-van der Spruit, E, additional, and Mayr, W.R, additional

Published

2004

24. Mutation rates at 23 different short tandem repeat loci

Author

Dauber, E.M., primary, Bär, W., additional, Klintschar, M., additional, Neuhuber, F., additional, Parson, W., additional, Glock, B., additional, and Mayr, W.R., additional

Published

2003

25. Discordant Growth Pattern and Ovarian Function in Monozygotic Twins with 45,X/46,XX Mosaicism

Author

Lebl, J., primary, Zahradníková, M., additional, Vlasak, I., additional, and Neuhuber, F., additional

Published

2001

26. Populationsgenetische Untersuchungen des AmpFLP-Systems YNZ22 in �sterreich: Anwendung in forensischen Fragestellungen

Author

Neuhuber, F., primary and Radacher, M., additional

Published

1998

27. Molecular and cytogenetic analyses of stably and unstably expressed transgene loci in tobacco.

Author

Iglesias, V A, primary, Moscone, E A, additional, Papp, I, additional, Neuhuber, F, additional, Michalowski, S, additional, Phelan, T, additional, Spiker, S, additional, Matzke, M, additional, and Matzke, A J, additional

Published

1997

28. Analysis of STR-PCR products with high-resolution denaturing PAGE

Author

Neuhuber, F., primary, Radacher, M., additional, and Sorgo, G., additional

Published

1996

29. Session 01 Cell structure and development

Author

Agazio, M., primary, Federico, R., additional, Rea, E., additional, Ciofi-Luzzatto, A., additional, Zaccaria, M. L., additional, Grego, S., additional, Demchenko, N. P., additional, Eleftheriou, E. P., additional, Elliott, M. C., additional, Fowler, M. R., additional, Kirby, M., additional, Scott, N. W., additional, Slater, A., additional, Gabarayeva, N. I., additional, Gamalei, Y. V., additional, Pakhomova, M. V., additional, Sjutkina, A. V., additional, Gazdová, B., additional, Široký, J., additional, Fajkus, J., additional, Brzobohatý, B., additional, Bezděk, M., additional, Gottschalk, M., additional, Schobert, C., additional, Pecsvaradi, A., additional, Leiker, G., additional, Komor, E., additional, Guralchuk, Zh. Z., additional, Gurova, T. F., additional, Hirsinger, C., additional, Armentier, Y., additional, Fleck, J., additional, Jamet, E., additional, Kharlamov, A. V., additional, Kollmann, R., additional, Koukalová, B., additional, Kuhrová, V., additional, Vyskot, B., additional, Zapletalová, L., additional, Kovařík, A., additional, Holý, A., additional, Kutík, J., additional, Demmers-Derks, L., additional, Lawlor, D. W., additional, Nátr, L., additional, Leitch, A. R., additional, Glyn, M. C. P., additional, Kingham, K., additional, Machs, E. M., additional, Grif, V. G., additional, Matzke, A. J. M., additional, Neuhuber, F., additional, Park, Y. -D., additional, Matzke, M. A., additional, Miroslavov, E. A., additional, Molas, J., additional, Szymańska, M., additional, Moore, I., additional, Putnoky, I., additional, Diefenthal, T., additional, Staehelin, L. A., additional, Schell, J., additional, Palme, K., additional, Petrov, I. A., additional, Kurchiy, V. M., additional, Porfirova, S. A., additional, Kuznetsov, V. V., additional, Ramsden, L., additional, Szederkenyi, J., additional, Shilova, N. V., additional, Katomina, A. P., additional, Sokolov, O. I., additional, Gringauze, O. K., additional, Richter, T. J., additional, Sonesson, A., additional, Widell, S., additional, Tishchenko, E. N., additional, Kuntsevitch, V. I., additional, Bilinskaya, A. T., additional, Vitha, S., additional, Beneš, K., additional, and Voznesenskaya, E. V., additional

Published

1994

30. Evaluation of an Alkaline Lysis Method for the Extraction of DNA from Whole Blood and Forensic Stains for STR Analysis

Author

Klintschar, M and Neuhuber, F

Abstract

A modified alkaline lysis protocol for extracting DNA from forensically relevant specimens is evaluated and compared with the chelex 100 method. For whole blood, bloodstains and sperm stains, both methods yielded comparable results after amplification for a pentameric STR locus (HumCD4). The main advantages of the new method are: only approximately ten minutes and two pipetting steps are necessary and the expenses for the extraction are extremely low as only NaOH, TrisHC1 buffer and a single microcentrifuge tube are required. Alkaline lysis also proved to yield DNA suitable for typing longer STRs by using dye-labeled primers and capillary electrophoresis. These advantages should render this protocol especially interesting for high-throughput laboratories in combination with multiplex PCR and fluorescent dye technology, although the storability of the extracts proved to be problematic.

Published

2000

31. A collaborative genetic study on the STR system FGA in two Austrian population samples

Author

Neuhuber, F., Klintschar, M., and Radacher, M.

Published

1998

32. A genetic study of the short tandem repeat systems VWA and TH01 in an Austrian population

Author

Neuhuber, F. and Radacher, M.

Published

1997

33. Recessive Dystrophic Epidermolysis bullosa due to Hemizygous 40 kb Deletion of COL7A1 and the Proximate PFKFB4 Gene Focusing on the Mutation c.425A>G Mimicking Homozygous Status

Author

Klausegger A, Jeschko N, Grammer M, Cemper-Kiesslich J, Neuhuber F, Diem A, Breitenbach-Koller H, Sander G, Kotzot D, Bauer JW, and Laimer M

Abstract

Background: Dystrophic Epidermolysis bullosa (DEB) is a rare inherited mechanobullous disease characterised by the hyperfragility of the skin and mucous membranes. It is (typically) caused by (loss-of-function) mutations in the COL7A1 gene that impair the formation of collagen type VII, which represents the major constituent of anchoring fibrils within the basement membrane zone of epithelialised tissues. In a 4-year-old patient diagnosed with the clinical features of recessive DEB, genotyping via Next-Generation EB Panel Sequencing initially revealed the homozygosity of the maternal c.425A>G mutation, while the paternal heterozygosity in exon 3 was lacking. This genetic profile suggested incongruent gene transmission due to uniparental isodisomy (UPD) or the occurrence of a hemizygous deletion of unknown size. Methods: Thus, the EB panel sequencing of genomic DNA, followed by a paternity test and analysis of microsatellite markers, as well as multiplex ligation-dependent probe amplification (MLPA) copy number analysis using patient and parental DNA, were performed. Results: This approach revealed a paternally derived hemizygous deletion spanning from exon 3 to exon 118. Linear amplification-mediated PCR (LAM-PCR) determined the breaking points within intron 2 of the COL7A1 gene, comprising a 40kb segment within intron 1 of the adjacent PFKFB4 gene. Conclusion: This report highlights the relevance of advanced molecular profiling to determine new/exceptional/unusual genotypes and the accurate mode of genetic transmission in DEB.

Published

2022

34. Improving the differentiation of closely related males by RMplex analysis of 30 Y-STRs with high mutation rates.

Author

Neuhuber F, Dunkelmann B, Grießner I, Helm K, Kayser M, and Ralf A

Subjects

DNA Fingerprinting, Fathers, Genetics, Population, Haplotypes, Humans, Male, Microsatellite Repeats, Mutation, Chromosomes, Human, Y, Mutation Rate

Abstract

The discovery of rapidly mutating (RM) Y-STRs started to move the field of forensic Y-STR analysis from male lineage identification towards male individual identification. Previously, the forensic value of RM Y-STRs for differentiating male relatives was limited due to the modest number of 13 identified RM Y-STRs. Recently, new RM Y-STRs were discovered, with strong expectations for significantly improving male relative differentiation; however, empirical evidence is missing yet. More recently, the genotyping method RMplex for efficiently analyzing 30 Y-STRs with high mutation rates, including all 26 currently known RM Y-STRs, was introduced. Here, we applied RMplex as well as the current state-of-the-art commercial Y-STR kit: Yfiler™ Plus PCR Amplification kit, to several hundreds of DNA-confirmed father-son pairs. Newly established estimates confirmed the high mutation rates of novel and previous RM Y-STRs. By combining current with previous data, we provide updated consensus estimates of mutation rates for all 49 Y-STRs targeted with both methods. Based on RMplex, 42% of 499 father-son pairs were differentiated, while 14% of 530 pairs based on Yfiler™ Plus, and 48% of 499 pairs based on both methods combined. Regarding brothers, RMplex also clearly outperformed Yfiler™ Plus, with differentiation rates of 62% and 33%, respectively. By combining both methods 72.9% of the brothers showed at least one mutation. For unrelated males, both methods achieved a discrimination capacity of 99.8% and a haplotype diversity of 0.999991, since all males had different haplotypes, except for two, perhaps indicating a hidden paternal relationship. Overall, this study underlines the value of RM Y-STRs in general and RMplex in particular for differentiating male relatives highly relevant in forensic genetics. It provides the first empirical evidence on the high value of RMplex for differentiating close male relatives, which for father-son pairs was almost 60% higher than with the initial set of 13 RM Y-STRs and three times higher than with Yfiler™ Plus. Based on our results from closely related males, we expect RMplex to also improve the differentiation of more distantly related males significantly, which needs empirical demonstration in future studies. We encourage the forensic community to apply RMplex in all forensic cases where a match with a commercial Y-STR kit was obtained between the male suspect and the evidence material, or to solely use RMplex in such cases, aiming to find out if the male suspect or any of his male paternal relatives left the evidence material at the crime scene., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2022

35. Suitability of specific soft tissue swabs for the forensic identification of highly decomposed bodies.

Author

Helm K, Matzenauer C, Neuhuber F, Monticelli F, Meyer H, Pittner S, and Gotsmy W

Subjects

Aorta chemistry, Brain Chemistry, DNA Degradation, Necrotic, DNA Fingerprinting methods, Female, Humans, Liver chemistry, Male, Microsatellite Repeats, Mouth Mucosa chemistry, Muscle, Skeletal chemistry, Postmortem Changes, Urinary Bladder chemistry, Body Remains chemistry, DNA isolation & purification, Forensic Anthropology methods

Abstract

When decomposition of a recovered body is fairly advanced, identification based on common morphologic features is often impossible. In these cases, short tandem repeat (STR) marker genotyping has established itself as a convenient and reliable alternative. However, at very progressed stages of decomposition, postmortem tissue putrefaction processes can decrease DNA yields considerably. Hence, not all types of tissue are equally suitable for successful STR marker-based postmortem identification. Bone or dental material is often analysed in corpses with advanced decompositional changes. However, processing of these materials is very elaborate and time and resource consuming. We have therefore focused on the suitableness of various types of soft tissue swabs, where DNA extraction is easier and faster. By sampling 28 bodies at various stages of decomposition, we evaluated the suitability of different tissues for genotyping at varying degrees of physical decay. This was achieved by a systematic classification of the sampled bodies by morphological scoring and subsequent analysis of multiple tissue swabs of the aortic wall, urinary bladder wall, brain, liver, oral mucosa and skeletal muscle. In summary, we found variable degrees of suitability of different types of soft tissue swabs for DNA-based identification. Swabs of the aortic wall, the urinary bladder wall and brain tissue yielded the best results - in descending order - even at advanced levels of decay.

Published

2021

36. Rudolf Hess - The Doppelgänger conspiracy theory disproved.

Author

McCall S, Kreindl G, Kastinger T, Müller E, Zahrer W, Grießner I, Dunkelmann B, Tutsch-Bauer E, Neuhuber F, Pittman PR, Wahl R, Lowry M, and Cemper-Kiesslich J

Subjects

Germany, History, 20th Century, Humans, Male, National Socialism history, Polymerase Chain Reaction, World War II, DNA Fingerprinting, Famous Persons, Microsatellite Repeats, Prisoners history

Abstract

The Deputy Führer of the Third Reich Rudolf Hess was captured after a controversial flight to Scotland in 1941. Hess was sentenced to life imprisonment during the Nuremberg War Crimes Trials. He was detained in Berlin's Spandau Prison under the official security designation 'Spandau #7.' Early doubts arose about the true identity of prisoner 'Spandau #7.' This evolved to a frequently espoused conspiracy theory that prisoner 'Spandau #7' was an imposter and not Rudolf Hess. After Hess's reputed 1987 suicide, the family grave became a Neo-Nazi pilgrimage site. In 2011, the grave was abandoned and the family remains cremated. Here we report the forensic DNA analysis of the only known extant DNA sample from prisoner 'Spandau #7' and a match to the Hess male line, thereby refuting the Doppelgänger Theory., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

37. Correction to 'Elevated germline mutation rate in teenage fathers'.

Author

Forster P, Hohoff C, Dunkelmann B, Schürenkamp M, Pfeiffer H, Neuhuber F, and Brinkmann B

Published

2016

38. Yfiler(®) Plus amplification kit validation and calculation of forensic parameters for two Austrian populations.

Author

Pickrahn I, Müller E, Zahrer W, Dunkelmann B, Cemper-Kiesslich J, Kreindl G, and Neuhuber F

Subjects

Austria, Chromosomes, Human, Y, DNA Fingerprinting methods, Forensic Genetics standards, Gene Frequency, Genetic Variation, Genetics, Population, Haplotypes, Humans, Male, Microsatellite Repeats, Polymerase Chain Reaction standards, Reproducibility of Results, Forensic Genetics methods, Polymerase Chain Reaction methods, Reagent Kits, Diagnostic standards

Abstract

With the new 6-dye AmpFISTR(®) Yfiler(®) Plus amplification kit (Thermo Fisher Scientific, Waltham, MA, USA) a set of 25 Y-chromosomal short tandem repeat loci (Y-STRs), including seven rapidly mutating Y-STRs (RM Y-STRs), is now available for forensic DNA typing. In this study we present our validation data for the AmpFISTR(®) Yfiler(®) Plus amplification kit and show the results of Y-chromosomal typing of 425 unrelated male individuals from two Austrian populations (Salzburg and Upper Austria) with the AmpFISTR(®) Yfiler(®) Plus amplification kit. Forensic parameters were calculated and compared for four Y-STR marker sets. We also typed five brother pairs to evaluate the power of discrimination for related individuals. The AmpFISTR(®) Yfiler(®) Plus (Yfiler Plus) kit appeared to be unimpaired by typical inhibitors such as hematin and humic acid or by large amounts of female components. An upgrade of analyzed markers resulted in increased discrimination capacity that is crucial for forensic trace analysis., (Copyright © 2015 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

39. Homicide by hanging: A case report and its forensic-medical aspects.

Author

Monticelli FC, Brandtner H, Kunz SN, Keller T, and Neuhuber F

Subjects

Adult, Asphyxia etiology, DNA isolation & purification, DNA Fingerprinting, Female, Forensic Medicine, Hemorrhage pathology, Humans, Male, Neck Injuries etiology, Wounds, Nonpenetrating pathology, Asphyxia pathology, Homicide, Neck Injuries pathology

Abstract

We report a rare case of homicide by hanging. The postmortem examination resulted in a verdict of death by suicidal hanging and the Public Prosecutor's Office released the body for burial. After intervention by the relatives police investigations were resumed. Based on evidence impossible to reconcile with the results of the postmortem examination and requiring further clarification, an autopsy was ordered. The results of the postmortem could not be brought in line with a suicidal hanging and were further substantiated by DNA analysis. The scenario put forward by the defense claiming a secondary transfer of trace evidence onto the ligature and the victim's clothes was excluded because of the distribution pattern and the trace evidence ratio. The defendant was sentenced to 20 years of prison for homicide. The verdict was confirmed by the Supreme Court and commuted to 18 years., (Copyright © 2015 Elsevier Ltd and Faculty of Forensic and Legal Medicine. All rights reserved.)

Published

2015

40. Elevated germline mutation rate in teenage fathers.

Author

Forster P, Hohoff C, Dunkelmann B, Schürenkamp M, Pfeiffer H, Neuhuber F, and Brinkmann B

Subjects

Adolescent, Adult, Africa, Age Factors, Aged, Child, Europe, Fathers, Female, Humans, Male, Middle Aged, Middle East, Mothers, Sex Factors, Spermatogonia cytology, Spermatozoa cytology, Germ-Line Mutation, Microsatellite Repeats

Abstract

Men age and die, while cells in their germline are programmed to be immortal. To elucidate how germ cells maintain viable DNA despite increasing parental age, we analysed DNA from 24 097 parents and their children, from Europe, the Middle East and Africa. We chose repetitive microsatellite DNA that mutates (unlike point mutations) only as a result of cellular replication, providing us with a natural 'cell-cycle counter'. We observe, as expected, that the overall mutation rate for fathers is seven times higher than for mothers. Also as expected, mothers have a low and lifelong constant DNA mutation rate. Surprisingly, however, we discover that (i) teenage fathers already set out from a much higher mutation rate than teenage mothers (potentially equivalent to 77-196 male germline cell divisions by puberty); and (ii) ageing men maintain sperm DNA quality similar to that of teenagers, presumably by using fresh batches of stem cells known as 'A-dark spermatogonia'.

Published

2015

41. In naming the dead: Autosomal and Y-chromosomal STR typing on human skeletal remains from an 18th/19th century aristocratic crypt in Gallspach, Upper Austria.

Author

Schwarz R, Renhart S, Gruber H, Kli Mesch W, Neuhuber F, and Cemper-Kiesslich J

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Austria epidemiology, Child, DNA analysis, DNA chemistry, DNA genetics, Female, Forensic Anthropology, Genotype, Genotyping Techniques, History, 18th Century, History, 19th Century, Humans, Male, Middle Aged, Chromosomes, Human genetics, Chromosomes, Human, Y genetics, Microsatellite Repeats genetics, White People genetics, White People history

Abstract

Ancient DNA analyses have shown to be a powerful tool in the joint transdisciplinary assessment of archaeological records involving human remains. In this study we set out to identify single inhumations by synoptically evaluating the historical, archaeological, anthropological and molecular records on human remains from the crypt of the aristocratic family of Hoheneck (or: Hohenegg) dating to the 18(th) and 19(th) century AD. A total of 11 individuals were under investigation, yielding complete autosomal and Y-chromosomal STR profiles for 5 persons clearly showing a family group. DNA results, anthropological data and archaeological records taken together resulted in (almost) unambiguous correlation to historical records on the persons entombed in the crypt.

Published

2015

42. Toward male individualization with rapidly mutating y-chromosomal short tandem repeats.

Author

Ballantyne KN, Ralf A, Aboukhalid R, Achakzai NM, Anjos MJ, Ayub Q, Balažic J, Ballantyne J, Ballard DJ, Berger B, Bobillo C, Bouabdellah M, Burri H, Capal T, Caratti S, Cárdenas J, Cartault F, Carvalho EF, Carvalho M, Cheng B, Coble MD, Comas D, Corach D, D'Amato ME, Davison S, de Knijff P, De Ungria MC, Decorte R, Dobosz T, Dupuy BM, Elmrghni S, Gliwiński M, Gomes SC, Grol L, Haas C, Hanson E, Henke J, Henke L, Herrera-Rodríguez F, Hill CR, Holmlund G, Honda K, Immel UD, Inokuchi S, Jobling MA, Kaddura M, Kim JS, Kim SH, Kim W, King TE, Klausriegler E, Kling D, Kovačević L, Kovatsi L, Krajewski P, Kravchenko S, Larmuseau MH, Lee EY, Lessig R, Livshits LA, Marjanović D, Minarik M, Mizuno N, Moreira H, Morling N, Mukherjee M, Munier P, Nagaraju J, Neuhuber F, Nie S, Nilasitsataporn P, Nishi T, Oh HH, Olofsson J, Onofri V, Palo JU, Pamjav H, Parson W, Petlach M, Phillips C, Ploski R, Prasad SP, Primorac D, Purnomo GA, Purps J, Rangel-Villalobos H, Rębała K, Rerkamnuaychoke B, Gonzalez DR, Robino C, Roewer L, Rosa A, Sajantila A, Sala A, Salvador JM, Sanz P, Schmitt C, Sharma AK, Silva DA, Shin KJ, Sijen T, Sirker M, Siváková D, Skaro V, Solano-Matamoros C, Souto L, Stenzl V, Sudoyo H, Syndercombe-Court D, Tagliabracci A, Taylor D, Tillmar A, Tsybovsky IS, Tyler-Smith C, van der Gaag KJ, Vanek D, Völgyi A, Ward D, Willemse P, Yap EP, Yong RY, Pajnič IZ, and Kayser M

Subjects

Africa, Alleles, Americas, Asia, DNA Fingerprinting statistics & numerical data, Europe, Gene Frequency, Genetic Variation, Humans, Male, Paternity, Pedigree, Rural Population, Urban Population, Chromosomes, Human, Y chemistry, DNA Fingerprinting methods, Genetics, Population, Haplotypes, Microsatellite Repeats

Abstract

Relevant for various areas of human genetics, Y-chromosomal short tandem repeats (Y-STRs) are commonly used for testing close paternal relationships among individuals and populations, and for male lineage identification. However, even the widely used 17-loci Yfiler set cannot resolve individuals and populations completely. Here, 52 centers generated quality-controlled data of 13 rapidly mutating (RM) Y-STRs in 14,644 related and unrelated males from 111 worldwide populations. Strikingly, >99% of the 12,272 unrelated males were completely individualized. Haplotype diversity was extremely high (global: 0.9999985, regional: 0.99836-0.9999988). Haplotype sharing between populations was almost absent except for six (0.05%) of the 12,156 haplotypes. Haplotype sharing within populations was generally rare (0.8% nonunique haplotypes), significantly lower in urban (0.9%) than rural (2.1%) and highest in endogamous groups (14.3%). Analysis of molecular variance revealed 99.98% of variation within populations, 0.018% among populations within groups, and 0.002% among groups. Of the 2,372 newly and 156 previously typed male relative pairs, 29% were differentiated including 27% of the 2,378 father-son pairs. Relative to Yfiler, haplotype diversity was increased in 86% of the populations tested and overall male relative differentiation was raised by 23.5%. Our study demonstrates the value of RM Y-STRs in identifying and separating unrelated and related males and provides a reference database., (© 2014 The Authors. **Human Mutation published by Wiley Periodicals, Inc.)

Published

2014

43. Another phantom from the morgue--a case of instrument-born sample contamination in the course of identifying an unknown deceased.

Author

Cemper-Kiesslich J, Tutsch-Bauer E, and Neuhuber F

Subjects

Adult, DNA genetics, Female, Humans, Microsatellite Repeats, Equipment and Supplies, Forensic Anthropology, Specimen Handling

Abstract

Due to its high reliability, DNA-typing is the method of preference in the field of osseous human remains identification. Nevertheless, contaminations from various sources have been shown to be inherent to the system, especially if the DNA-yield of samples under investigation is expected to be at a low level. For this reason a special focus has to be put on sampling procedures and contamination control in order to prevent from false results. In this study we present an illustrative case report followed by particular recommendations for taking samples from osseous human remains., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

44. Germline mutations of STR-alleles include multi-step mutations as defined by sequencing of repeat and flanking regions.

Author

Dauber EM, Kratzer A, Neuhuber F, Parson W, Klintschar M, Bär W, and Mayr WR

Subjects

Alleles, Genotype, Humans, Meiosis, Polymerase Chain Reaction, Sequence Analysis, DNA, White People genetics, Germ-Line Mutation, Microsatellite Repeats, Paternity, Terminal Repeat Sequences

Abstract

Well defined estimates of mutation rates are a prerequisite for the use of short tandem repeat (STR-) loci in relationship testing. We investigated 65 isolated genetic inconsistencies, which were observed within 50,796 allelic transfers at 23 STR-loci (ACTBP2 (SE33), CD4, CSF1PO, F13A1, F13B, FES, FGA, vWA, TH01, TPOX, D2S1338, D3S1358, D5S818, D7S820, D8S1132, D8S1179, D12S391, D13S317, D16S539, D17S976, D18S51, D19S433, D21S11) in Caucasoid families residing in Austria and Switzerland. Sequencing data of repeat and flanking regions and the median of all theoretically possible mutational steps showed valuable information to characterise the mutational events with regard to parental origin, change of repeat number (mutational step size) and direction of mutation (losses and gains of repeats). Apart from predominant single-step mutations including one case with a double genetic inconsistency, two double-step and two apparent four-step mutations could be identified. More losses than gains of repeats and more mutations originating from the paternal than the maternal lineage were observed (31 losses, 22 gains, 12 losses or gains and 47 paternal, 11 maternal mutations and 7 unclear of parental origin). The mutation in the paternal germline was 3.3 times higher than in the maternal germline. The results of our study show, that apart from the vast majority of single-step mutations rare multi-step mutations can be observed. Therefore, the interpretation of mutational events should not rigidly be restricted to the shortest possible mutational step, because rare but true multi-step mutations can easily be overlooked, if haplotype analysis is not possible., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

45. Pasture names with Romance and Slavic roots facilitate dissection of Y chromosome variation in an exclusively German-speaking alpine region.

Author

Niederstätter H, Rampl G, Erhart D, Pitterl F, Oberacher H, Neuhuber F, Hausner I, Gassner C, Schennach H, Berger B, and Parson W

Subjects

Genetics, Population, Haplotypes, Humans, Polymorphism, Single Nucleotide, Agriculture, Chromosomes, Human, Y genetics, Genetic Variation, Linguistics, White People genetics

Abstract

The small alpine district of East Tyrol (Austria) has an exceptional demographic history. It was contemporaneously inhabited by members of the Romance, the Slavic and the Germanic language groups for centuries. Since the Late Middle Ages, however, the population of the principally agrarian-oriented area is solely Germanic speaking. Historic facts about East Tyrol's colonization are rare, but spatial density-distribution analysis based on the etymology of place-names has facilitated accurate spatial mapping of the various language groups' former settlement regions. To test for present-day Y chromosome population substructure, molecular genetic data were compared to the information attained by the linguistic analysis of pasture names. The linguistic data were used for subdividing East Tyrol into two regions of former Romance (A) and Slavic (B) settlement. Samples from 270 East Tyrolean men were genotyped for 17 Y-chromosomal microsatellites (Y-STRs) and 27 single nucleotide polymorphisms (Y-SNPs). Analysis of the probands' surnames revealed no evidence for spatial genetic structuring. Also, spatial autocorrelation analysis did not indicate significant correlation between genetic (Y-STR haplotypes) and geographic distance. Haplogroup R-M17 chromosomes, however, were absent in region A, but constituted one of the most frequent haplogroups in region B. The R-M343 (R1b) clade showed a marked and complementary frequency distribution pattern in these two regions. To further test East Tyrol's modern Y-chromosomal landscape for geographic patterning attributable to the early history of settlement in this alpine area, principal coordinates analysis was performed. The Y-STR haplotypes from region A clearly clustered with those of Romance reference populations and the samples from region B matched best with Germanic speaking reference populations. The combined use of onomastic and molecular genetic data revealed and mapped the marked structuring of the distribution of Y chromosomes in an alpine region that has been culturally homogeneous for centuries.

Published

2012

46. An unusual case of identification by DNA analysis of siblings.

Author

Neuhuber F, Baur MP, Cemper-Kiesslich J, Dunkelmann B, and Monticelli F

Subjects

Chromosomes, Human, X, Chromosomes, Human, Y, Female, Genetic Markers, Humans, Male, Pedigree, Forensic Anthropology methods, Siblings

Abstract

A badly decomposed body required identification by means of DNA analysis. A brother and sister of the deceased were available as reference subjects. Although investigation of Y-chromosomal markers established an exclusion condition, autosomal markers suggested a positive identification. In order to increase the reliability of the tests, X-chromosomal markers were also investigated. This analysis showed the body to have an XXY genotype (Klinefelter's syndrome). A number of hypotheses were assessed using biostatistical methods, ultimately resulting in a definite identification. The special aspect of Klinefelter's syndrome proved highly useful for biostatistical analysis., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

47. Mutation rate in human microsatellites: influence of the structure and length of the tandem repeat.

Author

Brinkmann B, Klintschar M, Neuhuber F, Hühne J, and Rolf B

Subjects

Adult, Aging genetics, Alleles, Child, Female, Gene Frequency, Humans, Male, Meiosis, Molecular Sequence Data, Sex Characteristics, Microsatellite Repeats, Mutation

Abstract

In 10,844 parent/child allelic transfers at nine short-tandem-repeat (STR) loci, 23 isolated STR mismatches were observed. The parenthood in each of these cases was highly validated (probability >99.97%). The event was always repeat related, owing to either a single-step mutation (n=22) or a double-step mutation (n=1). The mutation rate was between 0 and 7 x 10(-3) per locus per gamete per generation. No mutations were observed in three of the nine loci. Mutation events in the male germ line were five to six times more frequent than in the female germ line. A positive exponential correlation between the geometric mean of the number of uninterrupted repeats and the mutation rate was observed. Our data demonstrate that mutation rates of different loci can differ by several orders of magnitude and that different alleles at one locus exhibit different mutation rates.

Published

1998

48. [Detection of saliva traces on perpetrator masks and their attribution to a particular criminal].

Author

Schneider H and Neuhuber F

Subjects

Adult, Blood Grouping and Crossmatching, Humans, Male, Polymerase Chain Reaction, DNA analysis, Masks, Saliva chemistry, Theft legislation & jurisprudence

Abstract

Face masks are commonly used in robberies and sometimes found nearby crime scenes. Usually saliva traces can be found on such masks, which contain cellular material useful for PCR typing. The method described in this study makes it possible to localize such regions on face mask, thereby allowing a much more directed investigation of the objects to analyse. This means a simplification of the DNA extraction procedure and a minimization of loss of material during DNA isolation. The general suitability of this method is demonstrated by a casework example.

Published

1996

49. [Clarification of a forced entry theft based on a beverage bottle left at the scene and PCR DNA typing of superficial saliva traces].

Author

Neuhuber F, Radacher M, and Sorgo G

Subjects

Adult, Blood Group Antigens genetics, Humans, Male, Phenotype, Beverages, DNA genetics, Polymerase Chain Reaction, Saliva metabolism, Theft legislation & jurisprudence

Abstract

This paper describes the first case in Austria where a suspect was been convicted and condemned because of salivary traces found on an empty bottle which were successfully typed by PCR-DNA-analysis. This was the only evidence in that case. In contrast to cigarette butts, which are already relatively routine for PCR-DNA-typing, bottles found on crime scenes usually contain much less material which can be investigated. As the result of permanent refinement of the methods used, it is demonstrated that it should be possible to solve other similar cases in the future.

Published

1995