Information on the National Database "Indonesia"

The National Database "Indonesia" consists of 278 haplotypes (at least minimal) which were published in 2 population studies and were additionally submitted via personal communication (1 submission) .

Most common haplotypes

Count	DYS19	DYS389I	DYS389II	DYS390	DYS391	DYS392	DYS393	DYS385
14	15	12	28	24	11	13	13	11,16
6	17	12	29	21	9	12	13	12,15
5	16	12	28	23	10	12	14	12,14
4	14	13	29	23	10	10	14	13,19
4	15	12	27	23	10	14	13	13,13
4	15	12	28	21	10	11	12	11,16
4	15	12	28	23	10	14	13	13,14
3	15	12	28	21	11	11	12	11,17
3	15	12	28	23	10	12	14	12,14
3	15	12	28	24	10	13	13	12,17

Count	DYS391	DYS389I	DYS439	DYS389II	DYS438	DYS437	DYS19	DYS392	DYS393	DYS390	DYS385
9	11	12	12	28	10	15	15	13	13	24	11,16
6	9	12	11	29	10	14	17	12	13	21	12,15
4	10	13	10	29	11	16	14	10	14	23	13,19
4	11	12	13	28	10	15	15	13	13	24	11,16
3	10	12	11	28	10	14	16	12	14	23	12,14
3	11	12	11	28	10	14	15	11	12	21	11,17
3	11	13	12	29	10	14	15	13	14	25	18,20
2	10	12	11	28	10	14	15	11	12	21	11,16
2	10	12	11	28	10	14	15	11	12	21	11,17
2	10	12	11	28	10	14	15	14	13	23	13,14

Count	DYS456	DYS389I	DYS390	DYS389II	DYS458	DYS19	DYS385	DYS393	DYS391	DYS439	DYS635	DYS392	YGATAH4	DYS437	DYS438	DYS448
7	15	12	24	28	15	15	11,16	13	11	12	21	13	12	15	10	19
4	15	12	24	28	15	15	11,16	13	11	13	21	13	12	15	10	19
4	15	13	23	29	17	14	13,19	14	10	10	26	10	12	16	11	19
3	15	12	21	29	14	17	12,15	13	9	11	22	12	13	14	10	17
3	16	13	25	29	16	15	18,20	14	11	12	23	13	10	14	10	19
2	15	12	21	28	17	15	11,16	12	10	13	23	11	11	16	10	20
2	15	12	21	28	17	15	11,17	12	10	11	24	11	10	14	10	21
2	15	12	21	28	17	15	11,17	12	11	11	24	11	10	14	10	21
2	15	12	23	28	18	15	13,14	13	10	11	21	14	11	14	10	17
2	15	12	24	29	16	15	11,16	13	10	12	21	13	12	15	10	19

There are no Y23 haplotypes or all haplotypes are singletons.

There are no Y27 haplotypes or all haplotypes are singletons.

There are no Ymax haplotypes or all haplotypes are singletons.

Population studies

Kim YJ., Shin DJ., Kim JM., Jin HJ., Kwak KD., Han MS., Choi SK. and Kim W. (2001), 'Y-chromosome STR haplotype profiling in the Korean population.', Forensic Sci Int 115(3):231-7 [PubMed]
Ballantyne KN., Ralf A., Aboukhalid R., Niaz M., Anjos MJ., Ayub Q., Balažic J., Ballantyne J., David J., Berger B., Bobillo C., Bouabdellah M., Burri H., Capal T., Caratti S., Cárdenas J., Cartault F., Elizeu F., Carvalho M., Cheng B., Michael D., Comas D., Corach D., Maria E., Davison S., De P., Corazon M., Decorte R., Dobosz T., Berit M., Elmrghni S., Gliwiński M., Sara C., Grol L., Haas C., Hanson E., Henke J., Henke L., Herrera-Rodríguez F., Carolyn R., Holmlund G., Honda K., Immel UD., Inokuchi S., Mark A., Kaddura M., Jong S., Soon H., Kim W., Turi E., Klausriegler E., Kling D., Kovačević L., Kovatsi L., Krajewski P., Kravchenko S., Maarten H., Young E., Lessig R., Ludmila A., Marjanović D., Minarik M., Mizuno N., Moreira H., Morling N., Mukherjee M., Munier P., Nagaraju J., Neuhuber F., Nie S., Nilasitsataporn P., Nishi T., Hye H., Olofsson J., Onofri V., Jukka U., Pamjav H., Parson W., Petlach M., Phillips C., Ploski R., Samayamantri P., Primorac D., Gludhug A., Purps J., Rangel-Villalobos H., Rębała K., Rerkamnuaychoke B., Rey D., Robino C., Roewer L., Rosa A., Sajantila A., Sala A., Jazelyn M., Sanz P., Schmitt C., Anil K., Dayse A., Shin KJ., Sijen T., Sirker M., Siváková D., Škaro V., Solano-Matamoros C., Souto L., Stenzl V., Sudoyo H., Syndercombe-Court D., Tagliabracci A., Taylor D., Tillmar A., Iosif S., Tyler-Smith C., Kristiaan J., Vanek D., Völgyi A., Ward D., Willemse P., Eric PH., Rita YY., Zupanič I., KayserAmato M., Davison S., De P., Corazon M., Decorte R., Dobosz T., Berit M., Elmrghni S., Gliwiński M., Sara C., Grol L., Haas C., Hanson E., Henke J., Henke L., Herrera-Rodríguez F., Carolyn R., Holmlund G., Honda K., Immel UD., Inokuchi S., Mark A., Kaddura M., Jong S., Soon H., Kim W., Turi E., Klausriegler E., Kling D., Kovačević L., Kovatsi L., Krajewski P., Kravchenko S., Maarten H., Young E., Lessig R., Ludmila A., Marjanović D., Minarik M., Mizuno N., Moreira H., Morling N., Mukherjee M., Munier P., Nagaraju J., Neuhuber F., Nie S., Nilasitsataporn P., Nishi T., Hye H., Olofsson J., Onofri V., Jukka U., Pamjav H., Parson W., Petlach M., Phillips C., Ploski R., Samayamantri P., Primorac D., Gludhug A., Purps J., Rangel-Villalobos H., Rębała K., Rerkamnuaychoke B., Rey D., Robino C., Roewer L., Rosa A., Sajantila A., Sala A., Jazelyn M., Sanz P., Schmitt C., Anil K., Dayse A., Shin KJ., Sijen T., Sirker M., Siváková D., Škaro V., Solano-Matamoros C., Souto L., Stenzl V., Sudoyo H., Syndercombe-Court D., Tagliabracci A., Taylor D., Tillmar A., Iosif S., Tyler-Smith C., Kristiaan J., Vanek D., Völgyi A., Ward D., Willemse P., Eric PH., Rita YY., Zupanič I. and Kayser M. (2014), 'Toward Male Individualization with Rapidly Mutating Y-Chromosomal Short Tandem Repeats', Human Mutation 35(8):1021-1032 [DOI]

Personal communication

YA002928