Search

Your search keyword '"Sahakyan H"' showing total 91 results
Start Over Author "Sahakyan H"
91 results on '"Sahakyan H"'

3. Logical-Combinatorial Approaches in Dynamic Recognition Problems

Author

Aslanyan, L., Krasnoproshin, V., Ryazanov, V., and Sahakyan, H.

Subjects
Computer Science - Discrete Mathematics, Computer Science - Artificial Intelligence
Abstract

A pattern recognition scenario, where instead of object classification into the classes by the learning set, the algorithm aims to allocate all objects to the same, the so-called normal class, is the research objective., Comment: research paper

Published
2021

15. Independent Neighbourhoods of Sets in Bn Groups.

Author

Sahakyan, H. K. and Margaryan, Zh. G.

Subjects
INDEPENDENT sets, ERROR-correcting codes, NEIGHBORHOODS
Abstract

Copyright of National Academy of Sciences of Armenia Reports / Doklady Nacionalnaâ Akademiâ Nauk Armenii is the property of National Academy of Sciences of the Republic of Armenia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022
Full Text
View/download PDF

17. Origin and spread of human mitochondrial DNA haplogroup U7

Author

Sahakyan, H. Kashani, B.H. Tamang, R. Kushniarevich, A. Francis, A. Costa, M.D. Pathak, A.K. Khachatryan, Z. Sharma, I. Van Oven, M. Parik, J. Hovhannisyan, H. Metspalu, E. Pennarun, E. Karmin, M. Tamm, E. Tambets, K. Bahmanimehr, A. Reisberg, T. Reidla, M. Achilli, A. Olivieri, A. Gandini, F. Perego, U.A. Al-Zahery, N. Houshmand, M. Sanati, M.H. Soares, P. Rai, E. Šarac, J. Šarić, T. Sharma, V. Pereira, L. Fernandes, V. Černý, V. Farjadian, S. Singh, D.P. Azakli, H. Üstek, D. Trofimova, N.E. Kutuev, I. Litvinov, S. Bermisheva, M. Khusnutdinova, E.K. Rai, N. Singh, M. Singh, V.K. Reddy, A.G. Tolk, H.-V. Cvjetan, S. Lauc, L.B. Rudan, P. Michalodimitrakis, E.N. Anagnou, N.P. Pappa, K.I. Golubenko, M.V. Orekhov, V. Borinskaya, S.A. Kaldma, K. Schauer, M.A. Simionescu, M. Gusar, V. Grechanina, E. Govindaraj, P. Voevoda, M. Damba, L. Sharma, S. Singh, L. Semino, O. Behar, D.M. Yepiskoposyan, L. Richards, M.B. Metspalu, M. Kivisild, T. Thangaraj, K. Endicott, P. Chaubey, G. Torroni, A. Villems, R.

Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene hunter-gatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (∼16-19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that - analysed alongside 100 published ones - enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (∼11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (∼8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region. © The Author(s) 2017.

Published
2017

18. Origin and spread of mitochondrial DNA haplogroup U7

Author

Sahakyan, H, Kashani, BH, Tamang, R, Kushniarevich, A, Francis, A, Costa, MD, Pathak, AK, Khachatryan, Z, Sharma, I, van Oven, M, Parik, J, Hovhannisyan, H, Metspalu, E, Pennarun, E, Karmin, M, Tamm, E, Tambets, K, Bahmanimehr, A, Reisberg, T, Reidla, M, Achilli, A, Olivieri, A, Gandini, F, Perego, UA, Al-Zahery, N, Houshmand, M, Sanati, MH, Soares, P, Rai, E, Šarac, J, Šarić, T, Sharma, V, Pereira, L, Fernandes, V, Černý, V, Farjadian, S, Singh, DP, Azakli, H, Üstek, D, Ekomasova, NT, Kutuev, I, Litvinov, S, Bermisheva, M, Khusnutdinova, EK, Rai, N, Singh, M, Singh, VK, Reddy, AG, Tolk, HV, Cvjetan, S, Lauc, LB, Rudan, P, Michalodimitrakis, EN, Anagnou, NP, Pappa, KI, Golubenko, MV, Orekhov, V, Borinskaya, SA, Kaldma, K, Schauer, MA, Simionescu, M, Gusar, V, Grechanina, E, Govindaraj, P, Voevoda, M, Damba, L, Sharma, S, Singh, L, Semino, O, Behar, DM, Yepiskoposyan, L, Richards, MB, Metspalu, M, Kivisild, T, Thangaraj, K, Endicott, P, Chaubey, G, Torroni, A, Villems, R, and Instituto de Investigação e Inovação em Saúde

Subjects
Bronze Age, Europe, Mitochondrial haplogroup, Middle East, Steppe, Holocene, Human experiment, Neolithic, South Asia, Human, Language
Abstract

Human mitochondrial DNA haplogroup U is among the initial maternal founders in Southwest Asia and Europe and one that best indicates matrilineal genetic continuity between late Pleistocene huntergatherer groups and present-day populations of Europe. While most haplogroup U subclades are older than 30 thousand years, the comparatively recent coalescence time of the extant variation of haplogroup U7 (~16–19 thousand years ago) suggests that its current distribution is the consequence of more recent dispersal events, despite its wide geographical range across Europe, the Near East and South Asia. Here we report 267 new U7 mitogenomes that – analysed alongside 100 published ones – enable us to discern at least two distinct temporal phases of dispersal, both of which most likely emanated from the Near East. The earlier one began prior to the Holocene (~11.5 thousand years ago) towards South Asia, while the later dispersal took place more recently towards Mediterranean Europe during the Neolithic (~8 thousand years ago). These findings imply that the carriers of haplogroup U7 spread to South Asia and Europe before the suggested Bronze Age expansion of Indo-European languages from the Pontic-Caspian Steppe region.

Published
2017

19. A Problem on the Amounts of the Same Consecutive Pairs in Boolean Vectors.

Author

Khandanyan, H. A., Margaryan, Zh. G., and Sahakyan, H. K.

Subjects
BOOLEAN functions, VECTOR data, IMAGE representation, INTEGERS, BOOLEAN algebra
Abstract

Copyright of National Academy of Sciences of Armenia Reports / Doklady Nacionalnaâ Akademiâ Nauk Armenii is the property of National Academy of Sciences of the Republic of Armenia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2022
Full Text
View/download PDF

21. A recent bottleneck of Y chromosome diversity coincides with a global change in culture

Author

Karmin M., Saag L., Vicente M., Wilson Sayres M., Järve M., Talas U., Rootsi S., Ilumäe A., Mägi R., Mitt M., Pagani L., Puurand T., Faltyskova Z., Clemente F., Cardona A., Metspalu E., Sahakyan H., Yunusbayev B., Hudjashov G., DeGiorgio M., Loogväli E., Eichstaedt C., Eelmets M., Chaubey G., Tambets K., Litvinov S., Mormina M., Xue Y., Ayub Q., Zoraqi G., Korneliussen T., Akhatova F., Lachance J., Tishkoff S., Momynaliev K., Ricaut F., Kusuma P., Razafindrazaka H., Pierron D., Cox M., Sultana G., Willerslev R., Muller C., Westaway M., Lambert D., Skaro V., Kovačević L., Turdikulova S., Dalimova D., Khusainova R., Trofimova N., Akhmetova V., Khidiyatova I., Lichman D., Isakova J., Pocheshkhova E., Sabitov Z., Barashkov N., Nymadawa P., Mihailov E., Seng J., Evseeva I., Migliano A., Abdullah S., Andriadze G., Primorac D., Atramentova L., Utevska O., Yepiskoposyan L., Marjanović D., Kushniarevich A., and Behar D.

Abstract

© 2015 Karmin et al. It is commonly thought that human genetic diversity in non-African populations was shaped primarily by an out-of-Africa dispersal 50-100 thousand yr ago (kya). Here, we present a study of 456 geographically diverse high-coverage Y chromosome sequences, including 299 newly reported samples. Applying ancient DNA calibration, we date the Y-chromosomal most recent common ancestor (MRCA) in Africa at 254 (95% CI 192-307) kya and detect a cluster of major non-African founder haplogroups in a narrow time interval at 47-52 kya, consistent with a rapid initial colonization model of Eurasia and Oceania after the out-of-Africa bottleneck. In contrast to demographic reconstructions based on mtDNA, we infer a second strong bottleneck in Y-chromosome lineages dating to the last 10 ky. We hypothesize that this bottleneck is caused by cultural changes affecting variance of reproductive success among males.

Published
2015

22. The Simons Genome Diversity Project: 300 genomes from 142 diverse populations

Author

Mallick, S, Li, H, Lipson, M, Mathieson, I, Gymrek, M, Racimo, F, Zhao, M, Chennagiri, N, Nordenfelt, S, Tandon, A, Skoglund, P, Lazaridis, I, Sankararaman, S, Fu, Q, Rohland, N, Renaud, G, Erlich, Y, Willems, T, Gallo, C, Spence, JP, Song, YS, Poletti, G, Balloux, F, van Driem, G, de Knijff, P, Romero, IG, Jha, AR, Behar, DM, Bravi, CM, Capelli, C, Hervig, T, Moreno-Estrada, A, Posukh, OL, Balanovska, E, Balanovsky, O, Karachanak-Yankova, S, Sahakyan, H, Toncheva, D, Yepiskoposyan, L, Tyler-Smith, C, Xue, Y, Abdullah, MS, Ruiz-Linares, A, Beall, CM, Di Rienzo, A, Jeong, C, Starikovskaya, EB, Metspalu, E, Parik, J, Villems, R, Henn, BM, Hodoglugil, U, Mahley, R, Sajantila, A, Stamatoyannopoulos, G, Wee, JTS, Khusainova, R, Khusnutdinova, E, Litvinov, S, Ayodo, G, Comas, D, Hammer, MF, Kivisild, T, Klitz, W, Winkler, CA, Labuda, D, Bamshad, M, Jorde, LB, Tishkoff, SA, Watkins, WS, Metspalu, M, Dryomov, S, Sukernik, R, Singh, L, Thangaraj, K, Paeaebo, S, Kelso, J, Patterson, N, Reich, D, Mallick, S, Li, H, Lipson, M, Mathieson, I, Gymrek, M, Racimo, F, Zhao, M, Chennagiri, N, Nordenfelt, S, Tandon, A, Skoglund, P, Lazaridis, I, Sankararaman, S, Fu, Q, Rohland, N, Renaud, G, Erlich, Y, Willems, T, Gallo, C, Spence, JP, Song, YS, Poletti, G, Balloux, F, van Driem, G, de Knijff, P, Romero, IG, Jha, AR, Behar, DM, Bravi, CM, Capelli, C, Hervig, T, Moreno-Estrada, A, Posukh, OL, Balanovska, E, Balanovsky, O, Karachanak-Yankova, S, Sahakyan, H, Toncheva, D, Yepiskoposyan, L, Tyler-Smith, C, Xue, Y, Abdullah, MS, Ruiz-Linares, A, Beall, CM, Di Rienzo, A, Jeong, C, Starikovskaya, EB, Metspalu, E, Parik, J, Villems, R, Henn, BM, Hodoglugil, U, Mahley, R, Sajantila, A, Stamatoyannopoulos, G, Wee, JTS, Khusainova, R, Khusnutdinova, E, Litvinov, S, Ayodo, G, Comas, D, Hammer, MF, Kivisild, T, Klitz, W, Winkler, CA, Labuda, D, Bamshad, M, Jorde, LB, Tishkoff, SA, Watkins, WS, Metspalu, M, Dryomov, S, Sukernik, R, Singh, L, Thangaraj, K, Paeaebo, S, Kelso, J, Patterson, N, and Reich, D

Abstract

Here we report the Simons Genome Diversity Project data set: high quality genomes from 300 individuals from 142 diverse populations. These genomes include at least 5.8 million base pairs that are not present in the human reference genome. Our analysis reveals key features of the landscape of human genome variation, including that the rate of accumulation of mutations has accelerated by about 5% in non-Africans compared to Africans since divergence. We show that the ancestors of some pairs of present-day human populations were substantially separated by 100,000 years ago, well before the archaeologically attested onset of behavioural modernity. We also demonstrate that indigenous Australians, New Guineans and Andamanese do not derive substantial ancestry from an early dispersal of modern humans; instead, their modern human ancestry is consistent with coming from the same source as that of other non-Africans.

Published
2016

23. A recent bottleneck of Y chromosome diversity coincides with a global change in culture

Author

Karmin, M., Saag, L., Vicente, M., Wilson Sayres, M.A., Jarve, M., Talas, U.G., Rootsi, S., Ilumae, A.M., Magi, R., Mitt, M., Pagani, L., Puurand, T., Faltyskova, Z., Clemente, F., Cardona, A., Metspalu, E., Sahakyan, H., Yunusbayev, B., Hudjashov, G., DeGiorgio, M., Loogvali, E.L., Eichstaedt, C., Eelmets, M., Chaubey, G., Tambets, K., Litvinov, S., Mormina, M., Xue, Y., Ayub, Q., Zoraqi, G., Korneliussen, T.S., Akhatova, F., Lachance, J., Tishkoff, S., Momynaliev, K., Ricaut, F.X., Kusuma, P., Razafindrazaka, H., Pierron, D., Cox, M.P., Sultana, G.N., Willerslev, R., Muller, C., Westaway, M., Lambert, D., Skaro, V., Kovacevic, L., Turdikulova, S., Dalimova, D., Khusainova, R., Trofimova, N., Akhmetova, V., Khidiyatova, I., Lichman, D.V., Isakova, J., Pocheshkhova, E., Sabitov, Z., Barashkov, N.A., Nymadawa, P., Mihailov, E., Seng, J.W., Evseeva, I., Migliano, A.B., Abdullah, S., Andriadze, G., Primorac, D., Atramentova, L., Utevska, O., Yepiskoposyan, L., Marjanovic, D., Kushniarevich, A., Behar, D.M., Gilissen, C., Vissers, L., Veltman, J.A., Balanovska, E., Derenko, M., Malyarchuk, B., Metspalu, A., Fedorova, S., Eriksson, A., Manica, A., Mendez, F.L., Karafet, T.M., Veeramah, K.R., Bradman, N., Hammer, M.F., Osipova, L.P., Balanovsky, O., Khusnutdinova, E.K., Johnsen, K., Remm, M., Thomas, M.G., Tyler-Smith, C., Underhill, P.A., Willerslev, E., Nielsen, R., Metspalu, M., Villems, R., Kivisild, T., Karmin, M., Saag, L., Vicente, M., Wilson Sayres, M.A., Jarve, M., Talas, U.G., Rootsi, S., Ilumae, A.M., Magi, R., Mitt, M., Pagani, L., Puurand, T., Faltyskova, Z., Clemente, F., Cardona, A., Metspalu, E., Sahakyan, H., Yunusbayev, B., Hudjashov, G., DeGiorgio, M., Loogvali, E.L., Eichstaedt, C., Eelmets, M., Chaubey, G., Tambets, K., Litvinov, S., Mormina, M., Xue, Y., Ayub, Q., Zoraqi, G., Korneliussen, T.S., Akhatova, F., Lachance, J., Tishkoff, S., Momynaliev, K., Ricaut, F.X., Kusuma, P., Razafindrazaka, H., Pierron, D., Cox, M.P., Sultana, G.N., Willerslev, R., Muller, C., Westaway, M., Lambert, D., Skaro, V., Kovacevic, L., Turdikulova, S., Dalimova, D., Khusainova, R., Trofimova, N., Akhmetova, V., Khidiyatova, I., Lichman, D.V., Isakova, J., Pocheshkhova, E., Sabitov, Z., Barashkov, N.A., Nymadawa, P., Mihailov, E., Seng, J.W., Evseeva, I., Migliano, A.B., Abdullah, S., Andriadze, G., Primorac, D., Atramentova, L., Utevska, O., Yepiskoposyan, L., Marjanovic, D., Kushniarevich, A., Behar, D.M., Gilissen, C., Vissers, L., Veltman, J.A., Balanovska, E., Derenko, M., Malyarchuk, B., Metspalu, A., Fedorova, S., Eriksson, A., Manica, A., Mendez, F.L., Karafet, T.M., Veeramah, K.R., Bradman, N., Hammer, M.F., Osipova, L.P., Balanovsky, O., Khusnutdinova, E.K., Johnsen, K., Remm, M., Thomas, M.G., Tyler-Smith, C., Underhill, P.A., Willerslev, E., Nielsen, R., Metspalu, M., Villems, R., and Kivisild, T.

Abstract

Contains fulltext : 153022.pdf (publisher's version ) (Open Access), It is commonly thought that human genetic diversity in non-African populations was shaped primarily by an out-of-Africa dispersal 50-100 thousand yr ago (kya). Here, we present a study of 456 geographically diverse high-coverage Y chromosome sequences, including 299 newly reported samples. Applying ancient DNA calibration, we date the Y-chromosomal most recent common ancestor (MRCA) in Africa at 254 (95% CI 192-307) kya and detect a cluster of major non-African founder haplogroups in a narrow time interval at 47-52 kya, consistent with a rapid initial colonization model of Eurasia and Oceania after the out-of-Africa bottleneck. In contrast to demographic reconstructions based on mtDNA, we infer a second strong bottleneck in Y-chromosome lineages dating to the last 10 ky. We hypothesize that this bottleneck is caused by cultural changes affecting variance of reproductive success among males.

Published
2015

24. Ancient human genomes suggest three ancestral populations for present-day Europeans

Author

Lazaridis, I, Patterson, N, Mittnik, A, Renaud, G, Mallick, S, Kirsanow, K, Sudmant, Ph, Schraiber, Jg, Castellano, S, Lipson, M, Berger, B, Economou, C, Bollongino, R, Fu, Q, Bos, Ki, Nordenfelt, S, Li, H, De Filippo, C, Prüfer, K, Sawyer, S, Posth, C, Haak, W, Hallgren, F, Fornander, E, Rohland, N, Delsate, D, Francken, M, Guinet, Jm, Wahl, J, Ayodo, G, Babiker, Ha, Bailliet, G, Balanovska, E, Balanovsky, O, Bedoya, G, Ben Ami, H, Bene, J, Berrada, F, Bravi, Cm, Brisighelli, Francesca, Busby, Gb, Cali, F, Churnosov, M, Cole, De, Corach, D, Damba, L, Van Driem, G, Dryomov, S, Fedorova, Sa, Gallego Romero, I, Gubina, M, Hammer, M, Henn, Bm, Hervig, T, Hodoglugil, U, Jha, Ar, Karachanak Yankova, S, Khusainova, R, Khusnutdinova, E, Kittles, R, Kivisild, T, Kučinskas, V, Kushniarevich, A, Laredj, L, Litvinov, S, Loukidis, T, Mahley, Rw, Melegh, B, Metspalu, E, Molina, J, Mountain, J, Näkkäläjärvi, K, Nesheva, D, Nyambo, T, Osipova, L, Platonov, F, Posukh, O, Romano, V, Rothhammer, F, Rudan, I, Ruizbakiev, R, Sahakyan, H, Sajantila, A, Salas, A, Starikovskaya, Eb, Tarekegn, A, Toncheva, D, Turdikulova, S, Utevska, O, Vasquez, R, Villena, M, Voevoda, M, Winkler, Ca, Yepiskoposyan, L, Zalloua, P, Zemunik, T, Cooper, A, Capelli, C, Ruiz Linares, A, Tishkoff, Sa Et Al, Brisighelli, Francesca (ORCID:0000-0001-5469-4413), Lazaridis, I, Patterson, N, Mittnik, A, Renaud, G, Mallick, S, Kirsanow, K, Sudmant, Ph, Schraiber, Jg, Castellano, S, Lipson, M, Berger, B, Economou, C, Bollongino, R, Fu, Q, Bos, Ki, Nordenfelt, S, Li, H, De Filippo, C, Prüfer, K, Sawyer, S, Posth, C, Haak, W, Hallgren, F, Fornander, E, Rohland, N, Delsate, D, Francken, M, Guinet, Jm, Wahl, J, Ayodo, G, Babiker, Ha, Bailliet, G, Balanovska, E, Balanovsky, O, Bedoya, G, Ben Ami, H, Bene, J, Berrada, F, Bravi, Cm, Brisighelli, Francesca, Busby, Gb, Cali, F, Churnosov, M, Cole, De, Corach, D, Damba, L, Van Driem, G, Dryomov, S, Fedorova, Sa, Gallego Romero, I, Gubina, M, Hammer, M, Henn, Bm, Hervig, T, Hodoglugil, U, Jha, Ar, Karachanak Yankova, S, Khusainova, R, Khusnutdinova, E, Kittles, R, Kivisild, T, Kučinskas, V, Kushniarevich, A, Laredj, L, Litvinov, S, Loukidis, T, Mahley, Rw, Melegh, B, Metspalu, E, Molina, J, Mountain, J, Näkkäläjärvi, K, Nesheva, D, Nyambo, T, Osipova, L, Platonov, F, Posukh, O, Romano, V, Rothhammer, F, Rudan, I, Ruizbakiev, R, Sahakyan, H, Sajantila, A, Salas, A, Starikovskaya, Eb, Tarekegn, A, Toncheva, D, Turdikulova, S, Utevska, O, Vasquez, R, Villena, M, Voevoda, M, Winkler, Ca, Yepiskoposyan, L, Zalloua, P, Zemunik, T, Cooper, A, Capelli, C, Ruiz Linares, A, Tishkoff, Sa Et Al, and Brisighelli, Francesca (ORCID:0000-0001-5469-4413)

Abstract

We sequenced the genomes of a ∼7,000-year-old farmer from Germany and eight ∼8,000-year-old hunter-gatherers from Luxembourg and Sweden. We analysed these and other ancient genomes with 2,345 contemporary humans to show that most present-day Europeans derive from at least three highly differentiated populations: west European hunter-gatherers, who contributed ancestry to all Europeans but not to Near Easterners; ancient north Eurasians related to Upper Palaeolithic Siberians, who contributed to both Europeans and Near Easterners; and early European farmers, who were mainly of Near Eastern origin but also harboured west European hunter-gatherer related ancestry. We model these populations' deep relationships and show that early European farmers had ∼44% ancestry from a 'basal Eurasian' population that split before the diversification of other non-African lineages.

Published
2014

25. Hypergraph Degree Sequence Approximation.

Author

Sahakyan, H. A.

Subjects
HYPERGRAPHS, MATRICES (Mathematics), APPROXIMATION theory, GREEDY algorithms, RANDOM sets
Abstract

Copyright of National Academy of Sciences of Armenia Reports / Doklady Nacionalnaâ Akademiâ Nauk Armenii is the property of National Academy of Sciences of the Republic of Armenia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2017

26. EFFECT OF MUTATIONS AND PHOSPHORYLATION ON PYRIN STRUCTURE.

Author

SAHAKYAN, H. K., ARAKELOV, G. G., and NAZARYAN, K. B.

Subjects
*GENETIC mutation, *PHOSPHORYLATION, *PYRIN (Protein), *PROTEIN structure, *COMPUTER simulation
Abstract

Computer models of mutant and phosphorylated forms of pirin have been generated. A comparison of the structures showed differences in pyrin structure which can affect complex formation of pyrin with other effectors. [ABSTRACT FROM AUTHOR]

Published
2016

27. The Caucasus as an Asymmetric Semipermeable Barrier to Ancient Human Migrations

Author

Yunusbayev, B., primary, Metspalu, M., additional, Jarve, M., additional, Kutuev, I., additional, Rootsi, S., additional, Metspalu, E., additional, Behar, D. M., additional, Varendi, K., additional, Sahakyan, H., additional, Khusainova, R., additional, Yepiskoposyan, L., additional, Khusnutdinova, E. K., additional, Underhill, P. A., additional, Kivisild, T., additional, and Villems, R., additional

Published
2012
Full Text
View/download PDF

28. The Caucasus as an Asymmetric Semipermeable Barrier to Ancient Human Migrations

Author

Yunusbayev, B., primary, Metspalu, M., additional, Jarve, M., additional, Kutuev, I., additional, Rootsi, S., additional, Metspalu, E., additional, Behar, D. M., additional, Varendi, K., additional, Sahakyan, H., additional, Khusainova, R., additional, Yepiskoposyan, L., additional, Khusnutdinova, E. K., additional, Underhill, P. A., additional, Kivisild, T., additional, and Villems, R., additional

Published
2011
Full Text
View/download PDF

29. East Eurasian ancestry in the middle of Europe: Genetic footprints of Steppe nomads in the genomes of Belarusian Lipka Tatars

Author

Pankratov V., Litvinov S., Kassian A., Shulhin D., Tchebotarev L., Yunusbayev B., Möls M., Sahakyan H., Yepiskoposyan L., Rootsi S., Metspalu E., Golubenko M., Ekomasova N., Akhatova F., Khusnutdinova E., Heyer E., Endicott P., Derenko M., Malyarchuk B., Metspalu M., Davydenko O., Villems R., Kushniarevich A., Pankratov V., Litvinov S., Kassian A., Shulhin D., Tchebotarev L., Yunusbayev B., Möls M., Sahakyan H., Yepiskoposyan L., Rootsi S., Metspalu E., Golubenko M., Ekomasova N., Akhatova F., Khusnutdinova E., Heyer E., Endicott P., Derenko M., Malyarchuk B., Metspalu M., Davydenko O., Villems R., and Kushniarevich A.

Abstract

Medieval era encounters of nomadic groups of the Eurasian Steppe and largely sedentary East Europeans had a variety of demographic and cultural consequences. Amongst these outcomes was the emergence of the Lipka Tatars-a Slavic-speaking Sunni-Muslim minority residing in modern Belarus, Lithuania and Poland, whose ancestors arrived in these territories via several migration waves, mainly from the Golden Horde. Our results show that Belarusian Lipka Tatars share a substantial part of their gene pool with Europeans as indicated by their Y-chromosomal, mitochondrial and autosomal DNA variation. Nevertheless, Belarusian Lipkas still retain a strong genetic signal of their nomadic ancestry, witnessed by the presence of common Y-chromosomal and mitochondrial DNA variants as well as autosomal segments identical by descent between Lipkas and East Eurasians from temperate and northern regions. Hence, we document Lipka Tatars as a unique example of former Medieval migrants into Central Europe, who became sedentary, changed language to Slavic, yet preserved their faith and retained, both uni-and bi-parentally, a clear genetic echo of a complex population interplay throughout the Eurasian Steppe Belt, extending from Central Europe to northern China.

30. A recent bottleneck of Y chromosome diversity coincides with a global change in culture

Author

Karmin M., Saag L., Vicente M., Wilson Sayres M., Järve M., Talas U., Rootsi S., Ilumäe A., Mägi R., Mitt M., Pagani L., Puurand T., Faltyskova Z., Clemente F., Cardona A., Metspalu E., Sahakyan H., Yunusbayev B., Hudjashov G., DeGiorgio M., Loogväli E., Eichstaedt C., Eelmets M., Chaubey G., Tambets K., Litvinov S., Mormina M., Xue Y., Ayub Q., Zoraqi G., Korneliussen T., Akhatova F., Lachance J., Tishkoff S., Momynaliev K., Ricaut F., Kusuma P., Razafindrazaka H., Pierron D., Cox M., Sultana G., Willerslev R., Muller C., Westaway M., Lambert D., Skaro V., Kovačević L., Turdikulova S., Dalimova D., Khusainova R., Trofimova N., Akhmetova V., Khidiyatova I., Lichman D., Isakova J., Pocheshkhova E., Sabitov Z., Barashkov N., Nymadawa P., Mihailov E., Seng J., Evseeva I., Migliano A., Abdullah S., Andriadze G., Primorac D., Atramentova L., Utevska O., Yepiskoposyan L., Marjanović D., Kushniarevich A., Behar D., Karmin M., Saag L., Vicente M., Wilson Sayres M., Järve M., Talas U., Rootsi S., Ilumäe A., Mägi R., Mitt M., Pagani L., Puurand T., Faltyskova Z., Clemente F., Cardona A., Metspalu E., Sahakyan H., Yunusbayev B., Hudjashov G., DeGiorgio M., Loogväli E., Eichstaedt C., Eelmets M., Chaubey G., Tambets K., Litvinov S., Mormina M., Xue Y., Ayub Q., Zoraqi G., Korneliussen T., Akhatova F., Lachance J., Tishkoff S., Momynaliev K., Ricaut F., Kusuma P., Razafindrazaka H., Pierron D., Cox M., Sultana G., Willerslev R., Muller C., Westaway M., Lambert D., Skaro V., Kovačević L., Turdikulova S., Dalimova D., Khusainova R., Trofimova N., Akhmetova V., Khidiyatova I., Lichman D., Isakova J., Pocheshkhova E., Sabitov Z., Barashkov N., Nymadawa P., Mihailov E., Seng J., Evseeva I., Migliano A., Abdullah S., Andriadze G., Primorac D., Atramentova L., Utevska O., Yepiskoposyan L., Marjanović D., Kushniarevich A., and Behar D.

Abstract

© 2015 Karmin et al. It is commonly thought that human genetic diversity in non-African populations was shaped primarily by an out-of-Africa dispersal 50-100 thousand yr ago (kya). Here, we present a study of 456 geographically diverse high-coverage Y chromosome sequences, including 299 newly reported samples. Applying ancient DNA calibration, we date the Y-chromosomal most recent common ancestor (MRCA) in Africa at 254 (95% CI 192-307) kya and detect a cluster of major non-African founder haplogroups in a narrow time interval at 47-52 kya, consistent with a rapid initial colonization model of Eurasia and Oceania after the out-of-Africa bottleneck. In contrast to demographic reconstructions based on mtDNA, we infer a second strong bottleneck in Y-chromosome lineages dating to the last 10 ky. We hypothesize that this bottleneck is caused by cultural changes affecting variance of reproductive success among males.

31. East Eurasian ancestry in the middle of Europe: Genetic footprints of Steppe nomads in the genomes of Belarusian Lipka Tatars

Author

Pankratov V., Litvinov S., Kassian A., Shulhin D., Tchebotarev L., Yunusbayev B., Möls M., Sahakyan H., Yepiskoposyan L., Rootsi S., Metspalu E., Golubenko M., Ekomasova N., Akhatova F., Khusnutdinova E., Heyer E., Endicott P., Derenko M., Malyarchuk B., Metspalu M., Davydenko O., Villems R., Kushniarevich A., Pankratov V., Litvinov S., Kassian A., Shulhin D., Tchebotarev L., Yunusbayev B., Möls M., Sahakyan H., Yepiskoposyan L., Rootsi S., Metspalu E., Golubenko M., Ekomasova N., Akhatova F., Khusnutdinova E., Heyer E., Endicott P., Derenko M., Malyarchuk B., Metspalu M., Davydenko O., Villems R., and Kushniarevich A.

Abstract

Medieval era encounters of nomadic groups of the Eurasian Steppe and largely sedentary East Europeans had a variety of demographic and cultural consequences. Amongst these outcomes was the emergence of the Lipka Tatars-a Slavic-speaking Sunni-Muslim minority residing in modern Belarus, Lithuania and Poland, whose ancestors arrived in these territories via several migration waves, mainly from the Golden Horde. Our results show that Belarusian Lipka Tatars share a substantial part of their gene pool with Europeans as indicated by their Y-chromosomal, mitochondrial and autosomal DNA variation. Nevertheless, Belarusian Lipkas still retain a strong genetic signal of their nomadic ancestry, witnessed by the presence of common Y-chromosomal and mitochondrial DNA variants as well as autosomal segments identical by descent between Lipkas and East Eurasians from temperate and northern regions. Hence, we document Lipka Tatars as a unique example of former Medieval migrants into Central Europe, who became sedentary, changed language to Slavic, yet preserved their faith and retained, both uni-and bi-parentally, a clear genetic echo of a complex population interplay throughout the Eurasian Steppe Belt, extending from Central Europe to northern China.

32. A recent bottleneck of Y chromosome diversity coincides with a global change in culture

Author

Karmin M., Saag L., Vicente M., Wilson Sayres M., Järve M., Talas U., Rootsi S., Ilumäe A., Mägi R., Mitt M., Pagani L., Puurand T., Faltyskova Z., Clemente F., Cardona A., Metspalu E., Sahakyan H., Yunusbayev B., Hudjashov G., DeGiorgio M., Loogväli E., Eichstaedt C., Eelmets M., Chaubey G., Tambets K., Litvinov S., Mormina M., Xue Y., Ayub Q., Zoraqi G., Korneliussen T., Akhatova F., Lachance J., Tishkoff S., Momynaliev K., Ricaut F., Kusuma P., Razafindrazaka H., Pierron D., Cox M., Sultana G., Willerslev R., Muller C., Westaway M., Lambert D., Skaro V., Kovačević L., Turdikulova S., Dalimova D., Khusainova R., Trofimova N., Akhmetova V., Khidiyatova I., Lichman D., Isakova J., Pocheshkhova E., Sabitov Z., Barashkov N., Nymadawa P., Mihailov E., Seng J., Evseeva I., Migliano A., Abdullah S., Andriadze G., Primorac D., Atramentova L., Utevska O., Yepiskoposyan L., Marjanović D., Kushniarevich A., Behar D., Karmin M., Saag L., Vicente M., Wilson Sayres M., Järve M., Talas U., Rootsi S., Ilumäe A., Mägi R., Mitt M., Pagani L., Puurand T., Faltyskova Z., Clemente F., Cardona A., Metspalu E., Sahakyan H., Yunusbayev B., Hudjashov G., DeGiorgio M., Loogväli E., Eichstaedt C., Eelmets M., Chaubey G., Tambets K., Litvinov S., Mormina M., Xue Y., Ayub Q., Zoraqi G., Korneliussen T., Akhatova F., Lachance J., Tishkoff S., Momynaliev K., Ricaut F., Kusuma P., Razafindrazaka H., Pierron D., Cox M., Sultana G., Willerslev R., Muller C., Westaway M., Lambert D., Skaro V., Kovačević L., Turdikulova S., Dalimova D., Khusainova R., Trofimova N., Akhmetova V., Khidiyatova I., Lichman D., Isakova J., Pocheshkhova E., Sabitov Z., Barashkov N., Nymadawa P., Mihailov E., Seng J., Evseeva I., Migliano A., Abdullah S., Andriadze G., Primorac D., Atramentova L., Utevska O., Yepiskoposyan L., Marjanović D., Kushniarevich A., and Behar D.

Abstract

© 2015 Karmin et al. It is commonly thought that human genetic diversity in non-African populations was shaped primarily by an out-of-Africa dispersal 50-100 thousand yr ago (kya). Here, we present a study of 456 geographically diverse high-coverage Y chromosome sequences, including 299 newly reported samples. Applying ancient DNA calibration, we date the Y-chromosomal most recent common ancestor (MRCA) in Africa at 254 (95% CI 192-307) kya and detect a cluster of major non-African founder haplogroups in a narrow time interval at 47-52 kya, consistent with a rapid initial colonization model of Eurasia and Oceania after the out-of-Africa bottleneck. In contrast to demographic reconstructions based on mtDNA, we infer a second strong bottleneck in Y-chromosome lineages dating to the last 10 ky. We hypothesize that this bottleneck is caused by cultural changes affecting variance of reproductive success among males.

33. Ancient human genomes suggest three ancestral populations for present-day Europeans

Author

Joanna L. Mountain, Michael F. Hammer, Ruslan Ruizbakiev, Cesare de Filippo, Kumarasamy Thangaraj, David E. C. Cole, Haim Ben-Ami, Leila Laredj, Mark Lipson, Jüri Parik, Valentino Romano, Andres Ruiz-Linares, Fouad Berrada, Dominique Delsate, Ugur Hodoglugil, Antti Sajantila, Olga Utevska, Shahlo Turdikulova, Tor Hervig, Ludmila P. Osipova, Hovhannes Sahakyan, Robert W. Mahley, Ramiro Barrantes, Kirsten I. Bos, Stanislav Dryomov, Peter H. Sudmant, Nadin Rohland, Heng Li, Gabriel Renaud, Mikhail Voevoda, Claudio M. Bravi, Jean-Michel Guinet, Rem I. Sukernik, Joachim Wahl, Matthias Meyer, Christos Economou, Kay Prüfer, Graciela Bailliet, Mait Metspalu, Mikhail Churnosov, Iosif Lazaridis, Johannes Krause, Bonnie Berger, Levon Yepiskoposyan, Francesca Brisighelli, Francesco Calì, Irene Gallego Romero, Oleg Balanovsky, George Ayodo, Alan Cooper, Alissa Mittnik, Julio Molina, George van Driem, Jean-Michel Dugoujon, Larissa Damba, Fedor Platonov, Nick Patterson, David Reich, Thomas B. Nyambo, David Comas, Olga L. Posukh, Béla Melegh, Draga Toncheva, Alena Kushniarevich, Brenna M. Henn, Montgomery Slatkin, René Vasquez, Elena B. Starikovskaya, Joachim Burger, Ayele Tarekegn, Tatijana Zemunik, Ene Metspalu, Sena Karachanak-Yankova, Lalji Singh, Wolfgang Haak, Susanna Sawyer, Rick A. Kittles, Cheryl A. Winkler, Svante Pääbo, Francisco Rothhammer, Marina Gubina, Pierre Zalloua, Aashish R. Jha, Swapan Mallick, Sergi Castellano, Qiaomei Fu, Desislava Nesheva, Sergey Litvinov, Ingrida Uktveryte, Michael Francken, Cosimo Posth, Theologos Loukidis, Cristian Capelli, Janet Kelso, Sarah A. Tishkoff, Toomas Kivisild, Mark G. Thomas, Elin Fornander, Mercedes Villena, Fredrik Hallgren, Vaidutis Kučinskas, Daniel Corach, George B.J. Busby, Judit Bene, William Klitz, Hamza A. Babiker, Karola Kirsanow, Ruth Bollongino, Rita Khusainova, Evan E. Eichler, Sardana A. Fedorova, Klemetti Näkkäläjärvi, Igor Rudan, Susanne Nordenfelt, Joshua G. Schraiber, Elena Balanovska, Antonio Salas, Richard Villems, Gabriel Bedoya, Elza Khusnutdinova, Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Mathematics, Lipson, Mark, Berger Leighton, Bonnie, Lazaridis,I, Patterson,P, Mittnik,A, Renaud,G, Mallick,S, Kirsanow,K, Sudmant,PH, Schraiber,JG, Castellano,S, Lipson,M, Berger,B, Economou,C, Bollongino,R, Fu,Q, Bos,KI, Nordenfelt,S, Li,H, De Filippo,C, Pruefer,K, Sawyer, Posth,C, Haak1,H, Hallgren,F, Fornander,E, Rohland,N, Delsate,D, Francken,M, Guinet,JM, Wah,J, Ayodo,G, Babiker,HA, Bailliet,G, Balanovska,E, Balanovsky,O, Barrantes,R, Bedoya,G, Ben-Ami,H, Bene,J, Berrada,F, Bravi,CM, Brisighelli,F, Busby,GBJ, Cali,F, Churnosov,M, Cole,DEC, Corach,D, Damba,L, van Driem,G, Dryomov,S, Dugoujon,JM, Fedorova,SA, Gallego Romero,I, Gubina,M, Hammer,M, Henn,BM, Hervig,T, Hodoglugi,U, Jha,AR, Karachanak-Yankova,S, Khusainova,R, Khusnutdinova,E, Kittles,R:Kivisild,T, Klitz,W, Kucˇinskas,V, Kushniarevich,A, Laredj,L, Litvinov,S, Loukidis,T, Mahley,RW, Melegh,B, Metspalu,E, Molina,J, Mountain,J, Na¨kka¨la¨ja¨rvi,K, Nesheva,D, Nyambo,T, Osipova,L, Parik,J, Platonov,F, Posukh,O, Romano,V, Rothhammer,F, Rudan,I, Ruizbakiev,R, Sahakyan,H, Sajantila,A, Salas,A, Starikovskaya,EB, Tarekegn,A, Toncheva,D, Turdikulova,S, Uktveryte,I, Utevska,O, Vasquez,R, Villena,M, Voevoda,M, Winkler,CA, Yepiskoposyan,L, Zalloua,P, Zemunik,T, Cooper, Capelli,C, Thomas,MG, Ruiz-inares,A, Tishkoff,SA, Singh,L, Thangaraj,K, Villems,R, Comas,D, Sukernik,R, Metspalu,M, Meyer,M, Eichler,EE, Burger,J, Slatkin,M, Pa¨a¨bo,S, Kelso,J, Reich,D, and Krause,J

Subjects
History, Neanderthal, Biología, Population Dynamics, Present day, Genoma humà, Genome, purl.org/becyt/ford/1 [https], Basal (phylogenetics), Settore BIO/13 - Biologia Applicata, History, Ancient, Genetics, Principal Component Analysis, education.field_of_study, 0303 health sciences, Multidisciplinary, Ancient DNA, 030305 genetics & heredity, food and beverages, Agriculture, Genomics, 3. Good health, Europe, Workforce, CIENCIAS NATURALES Y EXACTAS, Human, Archaeogenetics, Asia, Lineage (genetic), EUROPE, Otras Ciencias Biológicas, European Continental Ancestry Group, Population, Settore BIO/08 - ANTROPOLOGIA, evolution, Europeans, Biology, Article, White People, Ancient, Genètica de poblacions humanes, Human origins, Ciencias Biológicas, 03 medical and health sciences, HUMAN ORIGINS, biology.animal, Humans, ANCIENT DNA, purl.org/becyt/ford/1.6 [https], education, Quantitative Biology - Populations and Evolution, Denisovan, 030304 developmental biology, Genetic diversity, ancient DNA, modern DNA, Europeans, prehistory, Genome, Human, Populations and Evolution (q-bio.PE), biology.organism_classification, Evolutionary biology, FOS: Biological sciences, Upper Paleolithic, Human genome, GENOMICS
Abstract

We sequenced the genomes of a ∼7,000-year-old farmer from Germany and eight ∼8,000-year-old hunter-gatherers from Luxembourg and Sweden. We analysed these and other ancient genomes1,2,3,4 with 2,345 contemporary humans to show that most present-day Europeans derive from at least three highly differentiated populations: west European hunter-gatherers, who contributed ancestry to all Europeans but not to Near Easterners; ancient north Eurasians related to Upper Palaeolithic Siberians3, who contributed to both Europeans and Near Easterners; and early European farmers, who were mainly of Near Eastern origin but also harboured west European hunter-gatherer related ancestry. We model these populations’ deep relationships and show that early European farmers had ∼44% ancestry from a ‘basal Eurasian’ population that split before the diversification of other non-African lineages., Instituto Multidisciplinario de Biología Celular

Published
2014

34. Dual effects of mefenamic acid on the I Ks molecular complex.

Author

Chan M, Pourrier M, Eldstrom J, Sahakyan H, Vardanyan V, and Fedida D

Abstract

Background and Purpose: Mutations in both KCNQ1 and KCNE1, which together form the cardiac I Ks current, are associated with inherited conditions such as long and short QT syndromes. Mefenamic acid, a non-steroidal anti-inflammatory drug, is an I Ks potentiator and may be utilised as an archetype to design therapeutically useful I Ks agonists. However, here we show that mefenamic acid can also act as an I Ks inhibitor, and our data reveal its dual effects on KCNQ1/KCNE1 channels., Experimental Approach: Effects of mefenamic acid on wild type (WT) and mutant KCNQ1/KCNE1 channels expressed in tsA201 cells were studied using whole cell patch clamp. Molecular dynamics simulations were used to determine trajectory clustering., Key Results: Mefenamic acid inhibits WT I Ks at high concentrations while preserving some attributes of current potentiation. Inhibitory actions of mefenamic acid are unmasked at lower drug concentrations by KCNE1 and KCNQ1 mutations in the mefenamic acid binding pocket, at the extracellular end of KCNE1 and in the KCNQ1 S6 helix. Mefenamic acid does not inhibit KCNQ1 in the absence of KCNE1 but inhibits I Ks current in a concentration-dependent manner in the mutant channels. Inhibition involves modulation of pore kinetics and/or voltage sensor domain-pore coupling in WT and in the KCNE1 E43C mutant., Conclusion and Implications: This work highlights the importance of structural motifs at the extracellular inter-subunit interface of KCNQ1 and KCNE1 channels, and their interactions, in determining the nature of drug effects on the I Ks channel complex and has important implications for treating patients with specific long QT mutations., (© 2024 The Author(s). British Journal of Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)

Published
2024
Full Text
View/download PDF

35. Human Y chromosome haplogroup L1-M22 traces Neolithic expansion in West Asia and supports the Elamite and Dravidian connection.

Author

Pathak AK, Simonian H, Ibrahim IAA, Hrechdakian P, Behar DM, Ayub Q, Arsanov P, Metspalu E, Yepiskoposyan L, Rootsi S, Endicott P, Villems R, and Sahakyan H

Abstract

West and South Asian populations profoundly influenced Eurasian genetic and cultural diversity. We investigate the genetic history of the Y chromosome haplogroup L1-M22, which, while prevalent in these regions, lacks in-depth study. Robust Bayesian analyses of 165 high-coverage Y chromosomes favor a West Asian origin for L1-M22 ∼20.6 thousand years ago (kya). Moreover, this haplogroup parallels the genome-wide genetic ancestry of hunter-gatherers from the Iranian Plateau and the Caucasus. We characterized two L1-M22 harboring population groups during the Early Holocene. One expanded with the West Asian Neolithic transition. The other moved to South Asia ∼8-6 kya but showed no expansion. This group likely participated in the spread of Dravidian languages. These South Asian L1-M22 lineages expanded ∼4-3 kya, coinciding with the Steppe ancestry introduction. Our findings advance the current understanding of Eurasian historical dynamics, emphasizing L1-M22's West Asian origin, associated population movements, and possible linguistic impacts., Competing Interests: D.M.B. declares stock ownership at Gene by Gene, Ltd. All other authors declare no competing interests., (© 2024 The Author(s).)

Published
2024
Full Text
View/download PDF

36. CoCoNuTs are a diverse subclass of Type IV restriction systems predicted to target RNA.

Author

Bell RT, Sahakyan H, Makarova KS, Wolf YI, and Koonin EV

Subjects
Phylogeny, Bacterial Proteins metabolism, Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacteria genetics, Bacteria metabolism, RNA metabolism, RNA genetics, RNA chemistry, RNA, Bacterial metabolism, RNA, Bacterial chemistry, RNA, Bacterial genetics
Abstract

A comprehensive census of McrBC systems, among the most common forms of prokaryotic Type IV restriction systems, followed by phylogenetic analysis, reveals their enormous abundance in diverse prokaryotes and a plethora of genomic associations. We focus on a previously uncharacterized branch, which we denote co iled- co il nu clease t andems (CoCoNuTs) for their salient features: the presence of extensive coiled-coil structures and tandem nucleases. The CoCoNuTs alone show extraordinary variety, with three distinct types and multiple subtypes. All CoCoNuTs contain domains predicted to interact with translation system components, such as OB-folds resembling the SmpB protein that binds bacterial transfer-messenger RNA (tmRNA), YTH-like domains that might recognize methylated tmRNA, tRNA, or rRNA, and RNA-binding Hsp70 chaperone homologs, along with RNases, such as HEPN domains, all suggesting that the CoCoNuTs target RNA. Many CoCoNuTs might additionally target DNA, via McrC nuclease homologs. Additional restriction systems, such as Type I RM, BREX, and Druantia Type III, are frequently encoded in the same predicted superoperons. In many of these superoperons, CoCoNuTs are likely regulated by cyclic nucleotides, possibly, RNA fragments with cyclic termini, that bind associated CARF ( C RISPR- A ssociated R ossmann F old) domains. We hypothesize that the CoCoNuTs, together with the ancillary restriction factors, employ an echeloned defense strategy analogous to that of Type III CRISPR-Cas systems, in which an immune response eliminating virus DNA and/or RNA is launched first, but then, if it fails, an abortive infection response leading to PCD/dormancy via host RNA cleavage takes over., Competing Interests: RB, HS, KM, YW, EK No competing interests declared

Published
2024
Full Text
View/download PDF

37. The Cryptic Bacterial Microproteome.

Author

Fesenko I, Sahakyan H, Shabalina SA, and Koonin EV

Abstract

Microproteins encoded by small open reading frames (smORFs) comprise the "dark matter" of proteomes. Although functional microproteins were identified in diverse organisms from all three domains of life, bacterial smORFs remain poorly characterized. In this comprehensive study of intergenic smORFs (ismORFs, 15-70 codons) in 5,668 bacterial genomes of the family Enterobacteriaceae, we identified 67,297 clusters of ismORFs subject to purifying selection. The ismORFs mainly code for hydrophobic, potentially transmembrane, unstructured, or minimally structured microproteins. Using AlphaFold Multimer, we predicted interactions of some of the predicted microproteins encoded by transcribed ismORFs with proteins encoded by neighboring genes, revealing the potential of microproteins to regulate the activity of various proteins, particularly, under stress. We compiled a catalog of predicted microprotein families with different levels of evidence from synteny analysis, structure prediction, and transcription and translation data. This study offers a resource for investigation of biological functions of microproteins., Competing Interests: Declaration of interests The authors declare no competing interests.

Published
2024
Full Text
View/download PDF

38. CoCoNuTs: A diverse subclass of Type IV restriction systems predicted to target RNA.

Author

Bell RT, Sahakyan H, Makarova KS, Wolf YI, and Koonin EV

Abstract

A comprehensive census of McrBC systems, among the most common forms of prokaryotic Type IV restriction systems, followed by phylogenetic analysis, reveals their enormous abundance in diverse prokaryotes and a plethora of genomic associations. We focus on a previously uncharacterized branch, which we denote CoCoNuTs (coiled-coil nuclease tandems) for their salient features: the presence of extensive coiled-coil structures and tandem nucleases. The CoCoNuTs alone show extraordinary variety, with 3 distinct types and multiple subtypes. All CoCoNuTs contain domains predicted to interact with translation system components, such as OB-folds resembling the SmpB protein that binds bacterial transfer-messenger RNA (tmRNA), YTH-like domains that might recognize methylated tmRNA, tRNA, or rRNA, and RNA-binding Hsp70 chaperone homologs, along with RNases, such as HEPN domains, all suggesting that the CoCoNuTs target RNA. Many CoCoNuTs might additionally target DNA, via McrC nuclease homologs. Additional restriction systems, such as Type I RM, BREX, and Druantia Type III, are frequently encoded in the same predicted superoperons. In many of these superoperons, CoCoNuTs are likely regulated by cyclic nucleotides, possibly, RNA fragments with cyclic termini, that bind associated CARF (CRISPR-Associated Rossmann Fold) domains. We hypothesize that the CoCoNuTs, together with the ancillary restriction factors, employ an echeloned defense strategy analogous to that of Type III CRISPR-Cas systems, in which an immune response eliminating virus DNA and/or RNA is launched first, but then, if it fails, an abortive infection response leading to PCD/dormancy via host RNA cleavage takes over., Competing Interests: Conflict of interest The authors declare no conflict of interest.

Published
2024
Full Text
View/download PDF

39. A generic binding pocket for small molecule I Ks activators at the extracellular inter-subunit interface of KCNQ1 and KCNE1 channel complexes.

Author

Chan M, Sahakyan H, Eldstrom J, Sastre D, Wang Y, Dou Y, Pourrier M, Vardanyan V, and Fedida D

Subjects
Animals, Heart, Heart Rate, Immunologic Factors, Mammals, KCNQ1 Potassium Channel genetics, Calmodulin genetics
Abstract

The cardiac I Ks ion channel comprises KCNQ1, calmodulin, and KCNE1 in a dodecameric complex which provides a repolarizing current reserve at higher heart rates and protects from arrhythmia syndromes that cause fainting and sudden death. Pharmacological activators of I Ks are therefore of interest both scientifically and therapeutically for treatment of I Ks loss-of-function disorders. One group of chemical activators are only active in the presence of the accessory KCNE1 subunit and here we investigate this phenomenon using molecular modeling techniques and mutagenesis scanning in mammalian cells. A generalized activator binding pocket is formed extracellularly by KCNE1, the domain-swapped S1 helices of one KCNQ1 subunit and the pore/turret region made up of two other KCNQ1 subunits. A few residues, including K41, A44 and Y46 in KCNE1, W323 in the KCNQ1 pore, and Y148 in the KCNQ1 S1 domain, appear critical for the binding of structurally diverse molecules, but in addition, molecular modeling studies suggest that induced fit by structurally different molecules underlies the generalized nature of the binding pocket. Activation of I Ks is enhanced by stabilization of the KCNQ1-S1/KCNE1/pore complex, which ultimately slows deactivation of the current, and promotes outward current summation at higher pulse rates. Our results provide a mechanistic explanation of enhanced I Ks currents by these activator compounds and provide a map for future design of more potent therapeutically useful molecules., Competing Interests: MC, HS, JE, DS, YW, YD, MP, VV, DF No competing interests declared, (© 2023, Chan, Sahakyan, Eldstrom et al.)

Published
2023
Full Text
View/download PDF

40. Effect of Colchicine Binding Site Inhibitors on the Tubulin Intersubunit Interaction.

Author

Sargsyan A, Sahakyan H, and Nazaryan K

Abstract

Microtubules are dynamic, non-covalent polymers consisting of α- and β-tubulin subunits that are involved in a wide range of intracellular processes. The polymerization and dynamics of microtubules are regulated by many factors, including small molecules that interact with different sites on the tubulin dimer. Colchicine binding site inhibitors (CBSIs) destabilize microtubules and inhibit tubulin polymerization, leading to cell cycle arrest. Because of their therapeutic potential, the molecular mechanism of CBSI function is an area of active research. Nevertheless, important details of this mechanism have yet to be resolved. In this study, we use atomistic molecular dynamics simulations to show that the binding of CBSIs to the tubulin heterodimer leads to the weakening of tubulin intersubunit interaction. Using atomistic molecular dynamics simulations and binding free energy calculations, we show that CBSIs act as protein-protein interaction inhibitors and destabilize interlinkage between α and β subunits, which is crucial for longitudinal contacts in the microtubule lattice. Our results offer new insight into the mechanisms of microtubule polymerization inhibition by colchicine and its analogs., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published
2023
Full Text
View/download PDF

41. A Study of a Protein-Folding Machine: Transient Rotation of the Polypeptide Backbone Facilitates Rapid Folding of Protein Domains in All-Atom Molecular Dynamics Simulations.

Author

Sahakyan H, Nazaryan K, Mushegian A, and Sorokina I

Subjects
Protein Domains, Rotation, Protein Folding, Amino Acids, Molecular Dynamics Simulation, Peptides chemistry
Abstract

Molecular dynamics simulations of protein folding typically consider the polypeptide chain at equilibrium and in isolation from the cellular components. We argue that in order to understand protein folding as it occurs in vivo, it should be modeled as an active, energy-dependent process, in which the cellular protein-folding machine directly manipulates the polypeptide. We conducted all-atom molecular dynamics simulations of four protein domains, whose folding from the extended state was augmented by the application of rotational force to the C-terminal amino acid, while the movement of the N-terminal amino acid was restrained. We have shown earlier that such a simple manipulation of peptide backbone facilitated the formation of native structures in diverse α-helical peptides. In this study, the simulation protocol was modified, to apply the backbone rotation and movement restriction only for a short time at the start of simulation. This transient application of a mechanical force to the peptide is sufficient to accelerate, by at least an order of magnitude, the folding of four protein domains from different structural classes to their native or native-like conformations. Our in silico experiments show that a compact stable fold may be attained more readily when the motions of the polypeptide are biased by external forces and constraints.

Published
2023
Full Text
View/download PDF

42. Search for Origins of Anti-CRISPR Proteins by Structure Comparison.

Author

Sahakyan H, Makarova KS, and Koonin EV

Subjects
Humans, Gene Editing, Bacteria metabolism, Viral Proteins genetics, Viral Proteins metabolism, CRISPR-Cas Systems genetics, CRISPR-Associated Protein 9 genetics
Abstract

Many bacterial and archaeal viruses encode anti-CRISPR proteins (Acrs) that specifically inhibit CRISPR-Cas systems via various mechanisms. The majority of the Acrs are small, non-enzymatic proteins that abrogate CRISPR activity by binding to Cas effector proteins. The Acrs evolve fast, due to the arms race with the respective CRISPR-Cas systems, which hampers the elucidation of their evolutionary origins by sequence comparison. We performed comprehensive structural modeling using AlphaFold2 for 3693 experimentally characterized and predicted Acrs, followed by a comparison to the protein structures in the Protein Data Bank database. After clustering the Acrs by sequence similarity, 363 high-quality structural models were obtained that accounted for 102 Acr families. Structure comparisons allowed the identification of homologs for 13 of these families that could be ancestors of the Acrs. Despite the limited extent of structural conservation, the inferred origins of Acrs show distinct trends, in particular, recruitment of toxins and antitoxins and SOS repair system components for the Acr function.

Published
2023
Full Text
View/download PDF

43. Mechanism of external K+ sensitivity of KCNQ1 channels.

Author

Abrahamyan A, Eldstrom J, Sahakyan H, Karagulyan N, Mkrtchyan L, Karapetyan T, Sargsyan E, Kneussel M, Nazaryan K, Schwarz JR, Fedida D, and Vardanyan V

Subjects
Molecular Dynamics Simulation, Oocytes metabolism, Patch-Clamp Techniques, KCNQ1 Potassium Channel metabolism, Potassium Channels, Voltage-Gated metabolism
Abstract

KCNQ1 voltage-gated K+ channels are involved in a wide variety of fundamental physiological processes and exhibit the unique feature of being markedly inhibited by external K+. Despite the potential role of this regulatory mechanism in distinct physiological and pathological processes, its exact underpinnings are not well understood. In this study, using extensive mutagenesis, molecular dynamics simulations, and single-channel recordings, we delineate the molecular mechanism of KCNQ1 modulation by external K+. First, we demonstrate the involvement of the selectivity filter in the external K+ sensitivity of the channel. Then, we show that external K+ binds to the vacant outermost ion coordination site of the selectivity filter inducing a diminution in the unitary conductance of the channel. The larger reduction in the unitary conductance compared to whole-cell currents suggests an additional modulatory effect of external K+ on the channel. Further, we show that the external K+ sensitivity of the heteromeric KCNQ1/KCNE complexes depends on the type of associated KCNE subunits., (© 2023 Abrahamyan et al.)

Published
2023
Full Text
View/download PDF

44. Structural and electrophysiological basis for the modulation of KCNQ1 channel currents by ML277.

Author

Willegems K, Eldstrom J, Kyriakis E, Ataei F, Sahakyan H, Dou Y, Russo S, Van Petegem F, and Fedida D

Subjects
Animals, Mutation, Xenopus, KCNQ1 Potassium Channel metabolism, Long QT Syndrome drug therapy, Long QT Syndrome genetics, Long QT Syndrome metabolism, Piperidines pharmacology, Thiazoles pharmacology, Tosyl Compounds pharmacology
Abstract

The KCNQ1 ion channel plays critical physiological roles in electrical excitability and K + recycling in organs including the heart, brain, and gut. Loss of function is relatively common and can cause sudden arrhythmic death, sudden infant death, epilepsy and deafness. Here, we report cryogenic electron microscopic (cryo-EM) structures of Xenopus KCNQ1 bound to Ca 2+ /Calmodulin, with and without the KCNQ1 channel activator, ML277. A single binding site for ML277 was identified, localized to a pocket lined by the S4-S5 linker, S5 and S6 helices of two separate subunits. Several pocket residues are not conserved in other KCNQ isoforms, explaining specificity. MD simulations and point mutations support this binding location for ML277 in open and closed channels and reveal that prevention of inactivation is an important component of the activator effect. Our work provides direction for therapeutic intervention targeting KCNQ1 loss of function pathologies including long QT interval syndrome and seizures., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

45. A new microtubule-stabilizing agent shows potent antiviral effects against African swine fever virus with no cytotoxicity.

Author

Sirakanyan S, Arabyan E, Hakobyan A, Hakobyan T, Chilingaryan G, Sahakyan H, Sargsyan A, Arakelov G, Nazaryan K, Izmailyan R, Abroyan L, Karalyan Z, Arakelova E, Hakobyan E, Hovakimyan A, Serobian A, Neves M, Ferreira J, Ferreira F, and Zakaryan H

Subjects
African Swine Fever drug therapy, African Swine Fever metabolism, African Swine Fever Virus genetics, African Swine Fever Virus physiology, Animals, Chlorocebus aethiops, Microtubules chemistry, Microtubules genetics, Microtubules metabolism, Protein Stability, Swine, Tubulin chemistry, Tubulin genetics, Vero Cells, Virus Replication drug effects, African Swine Fever virology, African Swine Fever Virus drug effects, Antiviral Agents pharmacology, Tubulin metabolism
Abstract

African swine fever virus (ASFV) is the causal agent of a fatal disease of domestic swine for which no effective antiviral drugs are available. Recently, it has been shown that microtubule-targeting agents hamper the infection cycle of different viruses. In this study, we conducted in silico screening against the colchicine binding site (CBS) of tubulin and found three new compounds with anti-ASFV activity. The most promising antiviral compound (6b) reduced ASFV replication in a dose-dependent manner (IC50 = 19.5 μM) with no cellular (CC50 > 500 μM) and animal toxicity (up to 100 mg/kg). Results also revealed that compound 6b interfered with ASFV attachment, internalization and egress, with time-of-addition assays, showing that compound 6b has higher antiviral effects when added within 2-8 h post-infection. This compound significantly inhibited viral DNA replication and disrupted viral protein synthesis. Experiments with ASFV-infected porcine macrophages disclosed that antiviral effects of the compound 6b were similar to its effects in Vero cells. Tubulin polymerization assay and confocal microscopy demonstrated that compound 6b promoted tubulin polymerization, acting as a microtubule-stabilizing, rather than a destabilizing agent in cells. In conclusion, this work emphasizes the idea that microtubules can be targets for drug development against ASFV.

Published
2021
Full Text
View/download PDF

46. Phylogenetic history of patrilineages rare in northern and eastern Europe from large-scale re-sequencing of human Y-chromosomes.

Author

Ilumäe AM, Post H, Flores R, Karmin M, Sahakyan H, Mondal M, Montinaro F, Saag L, Bormans C, Sanchez LF, Ameur A, Gyllensten U, Kals M, Mägi R, Pagani L, Behar DM, Rootsi S, and Villems R

Subjects
Estonia, Haplotypes, Human Migration, Humans, Male, Pedigree, Sweden, Chromosomes, Human, Y genetics, Phylogeny, Polymorphism, Genetic
Abstract

The most frequent Y-chromosomal (chrY) haplogroups in northern and eastern Europe (NEE) are well-known and thoroughly characterised. Yet a considerable number of men in every population carry rare paternal lineages with estimated frequencies around 5%. So far, limited sample-sizes and insufficient resolution of genotyping have obstructed a truly comprehensive look into the variety of rare paternal lineages segregating within populations and potential signals of population history that such lineages might convey. Here we harness the power of massive re-sequencing of human Y chromosomes to identify previously unknown population-specific clusters among rare paternal lineages in NEE. We construct dated phylogenies for haplogroups E2-M215, J2-M172, G-M201 and Q-M242 on the basis of 421 (of them 282 novel) high-coverage chrY sequences collected from large-scale databases focusing on populations of NEE. Within these otherwise rare haplogroups we disclose lineages that began to radiate ~1-3 thousand years ago in Estonia and Sweden and reveal male phylogenetic patterns testifying of comparatively recent local demographic expansions. Conversely, haplogroup Q lineages bear evidence of ancient Siberian influence lingering in the modern paternal gene pool of northern Europe. We assess the possible direction of influx of ancestral carriers for some of these male lineages. In addition, we demonstrate the congruency of paternal haplogroup composition of our dataset with two independent population-based cohorts from Estonia and Sweden., (© 2021. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published
2021
Full Text
View/download PDF

47. Identification of non-classical hCA XII inhibitors using combination of computational approaches for drug design and discovery.

Author

Al-Sanea MM, Chilingaryan G, Abelyan N, Arakelov G, Sahakyan H, Arakelov VG, Nazaryan K, Hussein S, Alazmi GM, Alsharari HE, Al-Faraj WM, Alruwaili FS, Albilasi NQ, Alsharari TS, Alsaleh AAS, Alazmi TM, Almalki AH, Alotaibi NH, and Abdelgawad MA

Subjects
Cheminformatics, Drug Design, Humans, Molecular Docking Simulation, Molecular Structure, Structure-Activity Relationship, Carbonic Anhydrases metabolism, Enzyme Inhibitors chemistry, Enzyme Inhibitors pharmacology
Abstract

Human carbonic anhydrase XII (hCA XII) isozyme is of high therapeutic value as a pharmacological target and biomarker for different types of cancer. The hCA XII is one of the crucial effectors that regulates extracellular and intracellular pH and affects cancer cell proliferation, invasion, growth and metastasis. Despite the fact that interaction features of hCAs inhibitors with the catalytic site of the enzyme are well described, lack in the selectivity of the traditional hCA inhibitors based on the sulfonamide group or related motifs is an urgent issue. Moreover, drugs containing sulfanomides can cause sulfa allergies. Thus, identification of novel non-classical inhibitors of hCA XII is of high priority and is currently the subject of a vast field of study. This study was devoted to the identification of novel potential hCA XII inhibitors using comprehensive set of computational approaches for drug design discovery: generation and validation of structure- and ligand-based pharmacophore models, molecular docking, re-scoring of virtual screening results with MMGBSA, molecular dynamics simulations, etc. As the results of the study several compounds with alternative to classical inhibitors chemical scaffolds, in particular one of coumarins derivative, have been identified and are of high interest as potential non-classical hCA XII inhibitors., (© 2021. The Author(s).)

Published
2021
Full Text
View/download PDF

48. Improving virtual screening results with MM/GBSA and MM/PBSA rescoring.

Author

Sahakyan H

Subjects
Algorithms, Drug Design, Ligands, Mechanical Phenomena, Molecular Conformation, Molecular Docking Simulation, Protein Binding, Proteins chemistry
Abstract

Virtual screening (VS) based on molecular docking is one of the most useful methods in computer-aided drug design. By allowing to identify computationally putative ligands binding to the proteins of interest, VS dramatically reduces the time and expense of the development of novel therapeutics. Among the limitations of the VS approaches is the low accuracy of scoring functions implemented in docking methods for assessing binding affinity. Many such scoring functions are developed for rapid, high-throughput evaluation of binding energy of multiple conformations generated by a searching algorithm. The methods for more rigorous calculation of binding affinity calculation are generally time-consuming. Even so, in many studies more accurate methods were used for rescoring of the final poses and false-positive hits evaluation. We performed VS for three benchmark sets and used energy minimization with MM/PB(GB)SA methods (molecular mechanics energies combined with the Poisson-Boltzmann or generalized Born and surface area) to rescore binding affinities. The comparison of the area under the curve (AUC), enrichment factor (EF), and Boltzmann-enhanced discrimination of receiver operating characteristics (BEDROC) showed essential improvements in the binding energy prediction after the rescoring. Finally, we provide a program for minimization and rescoring VS results based on freely available AmberTools. The code requires just the final binding poses of the ligand as the input and can be used with any docking program.

Published
2021
Full Text
View/download PDF

49. Origin and diffusion of human Y chromosome haplogroup J1-M267.

Author

Sahakyan H, Margaryan A, Saag L, Karmin M, Flores R, Haber M, Kushniarevich A, Khachatryan Z, Bahmanimehr A, Parik J, Karafet T, Yunusbayev B, Reisberg T, Solnik A, Metspalu E, Hovhannisyan A, Khusnutdinova EK, Behar DM, Metspalu M, Yepiskoposyan L, Rootsi S, and Villems R

Subjects
Bayes Theorem, Evolution, Molecular, Genetics, Population, Humans, Phylogeny, Polymorphism, Single Nucleotide, Spatio-Temporal Analysis, Alleles, Chromosomes, Human, Y, Haplotypes
Abstract

Human Y chromosome haplogroup J1-M267 is a common male lineage in West Asia. One high-frequency region-encompassing the Arabian Peninsula, southern Mesopotamia, and the southern Levant-resides ~ 2000 km away from the other one found in the Caucasus. The region between them, although has a lower frequency, nevertheless demonstrates high genetic diversity. Studies associate this haplogroup with the spread of farming from the Fertile Crescent to Europe, the spread of mobile pastoralism in the desert regions of the Arabian Peninsula, the history of the Jews, and the spread of Islam. Here, we study past human male demography in West Asia with 172 high-coverage whole Y chromosome sequences and 889 genotyped samples of haplogroup J1-M267. We show that this haplogroup evolved ~ 20,000 years ago somewhere in northwestern Iran, the Caucasus, the Armenian Highland, and northern Mesopotamia. The major branch-J1a1a1-P58-evolved during the early Holocene ~ 9500 years ago somewhere in the Arabian Peninsula, the Levant, and southern Mesopotamia. Haplogroup J1-M267 expanded during the Chalcolithic, the Bronze Age, and the Iron Age. Most probably, the spread of Afro-Asiatic languages, the spread of mobile pastoralism in the arid zones, or both of these events together explain the distribution of haplogroup J1-M267 we see today in the southern regions of West Asia.

Published
2021
Full Text
View/download PDF

50. Energy-dependent protein folding: modeling how a protein folding machine may work.

Author

Sahakyan H, Nazaryan K, Mushegian A, and Sorokina I

Subjects
Peptides, Protein Conformation, Proteins, Artificial Intelligence, Protein Folding
Abstract

Background: Proteins fold robustly and reproducibly in vivo , but many cannot fold in vitro in isolation from cellular components. Despite the remarkable progress that has been achieved by the artificial intelligence approaches in predicting the protein native conformations, the pathways that lead to such conformations, either in vitro or in vivo , remain largely unknown. The slow progress in recapitulating protein folding pathways in silico may be an indication of the fundamental deficiencies in our understanding of folding as it occurs in nature. Here we consider the possibility that protein folding in living cells may not be driven solely by the decrease in Gibbs free energy and propose that protein folding in vivo should be modeled as an active energy-dependent process. The mechanism of action of such a protein folding machine might include direct manipulation of the peptide backbone. Methods: To show the feasibility of a protein folding machine, we conducted molecular dynamics simulations that were augmented by the application of mechanical force to rotate the C-terminal amino acid while simultaneously limiting the N-terminal amino acid movements. Results: Remarkably, the addition of this simple manipulation of peptide backbones to the standard molecular dynamics simulation indeed facilitated the formation of native structures in five diverse alpha-helical peptides. Steric clashes that arise in the peptides due to the forced directional rotation resulted in the behavior of the peptide backbone no longer resembling a freely jointed chain. Conclusions: These simulations show the feasibility of a protein folding machine operating under the conditions when the movements of the polypeptide backbone are restricted by applying external forces and constraints. Further investigation is needed to see whether such an effect may play a role during co-translational protein folding in vivo and how it can be utilized to facilitate folding of proteins in artificial environments., Competing Interests: No competing interests were disclosed., (Copyright: © 2021 Sahakyan H et al.)

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results