Search results for "Ih"
showing 10 items of 9382 documents
FMapper: Scalable read mapper based on succinct hash index on SunWay TaihuLight
2022
Abstract One of the most important application in bioinformatics is read mapping. With the rapidly increasing number of reads produced by next-generation sequencing (NGS) technology, there is a need for fast and efficient high-throughput read mappers. In this paper, we present FMapper – a highly scalable read mapper on the TaihuLight supercomputer optimized for its fourth-generation ShenWei many-core architecture (SW26010). In order to fully exploit the computational power of the SW26010, we employ dynamic scheduling of tasks, asynchronous I/O and data transfers and implement a vectorized version of the banded Myers algorithm tailored to the 256 bit vector registers of the SW26010. Our perf…
Nenukleozīdu HIV – 1 reversās transkriptāzes inhibitoru sintēze
2016
Nenukleozīdu HIV – 1 reversās transkriptāzes inhibitoru sintēze. Pustenko A., zinātniskie vadītāji Dr. chem. Žalubovskis R, Dr. chem. Igors Kļimenkovs. Maģistra darbs 71 lappuses, 58 attēli, 20 tabulas, 33 literatūras avoti. Latviešu valodā. Darbā tika sintezēti 3,4-dihidropirimidīn-2(1H)-oni un to mono- N-1 un N-1, N-3 bisatvasinājumi reakcijās ar virkni sulfonilhlorīdu un acilhlorīdu. Sintezēto savienojumu struktūra apstiprināta ar KMR spektriem, kā arī ar Rentgenstruktūranalīzi. Literatūras apskatā apkopota informācija par 3,4-dihidropirimidīn-2(1H)-onu sintēzes metodēm, to acilēšanu un sulfonilēšanu.
CCDC 2077766: Experimental Crystal Structure Determination
2022
Related Article: Aija Trimdale, Anatoly Mishnev, Agris Bērziņš|2021|Pharmaceutics|13|734|doi:10.3390/pharmaceutics13050734
CCDC 680521: Experimental Crystal Structure Determination
2009
Related Article: A.Dobrov, V.B.Arion, S.Shova, A.Roller, E.Rentschler, B.K.Keppler|2008|Eur.J.Inorg.Chem.||4140|doi:10.1002/ejic.200800605
CCDC 1498874: Experimental Crystal Structure Determination
2017
Related Article: Stephen S. Nyandoro, Joan J. E. Munissi, Msim Kombo, Clarence A. Mgina, Fangfang Pan, Amra Gruhonjic, Paul Fitzpatrick, Yu Lu, Bin Wang, Kari Rissanen, Máté Erdélyi|2017|J.Nat.Prod.|80|377|doi:10.1021/acs.jnatprod.6b00839
CCDC 1051731: Experimental Crystal Structure Determination
2015
Related Article: Artis Kons, Ligita Rutkovska, Agris Bērziņš, Raitis Bobrovs, Andris Actiņš|2015|CrystEngComm|17|3627|doi:10.1039/C5CE00426H
CCDC 1862873: Experimental Crystal Structure Determination
2018
Related Article: A. Zagidullin, D. Islamov, E. Oshchepkova, P. Lonnecke, V. Miluykov|2018|Acta Crystallogr.,Sect.E:Cryst.Commun.|74|1336|doi:10.1107/S2056989018011775
CCDC 886816: Experimental Crystal Structure Determination
2013
Related Article: I.Goba,B.Turovska,S.Belyakov,E.Liepinsh|2013|Khim.Get.Soedin.,SSSR||778|
CCDC 1555938: Experimental Crystal Structure Determination
2018
Related Article: Sun Li, Xiang-Yu Chen, Qiang Liu, Anssi Peuronen, Kari Rissanen, Dieter Enders|2017|Synthesis|49|4861|doi:10.1055/s-0036-1588509
The chemical composition of the aerial parts essential oil of Lonas annua (L.) Vines & Druce (Asteraceae)
2022
Lonas annua (L.) Vines & Druce (Asteraceae), commonly known as African Daisy or Yellow Ageratum is a rare therophyte native to northwestern Africa (Algeria, Morocco, and Tunisia) and Italy (Sicily and Sardinia). In the present study, the chemical composition of the essential oil from aerial parts of Lonas annua was analyzed by GC-MS. No one report has been previously published on the essential oil of this species. The results showed the presence of large quantity of two unusual metabolites 2,3-dihydrofarnesol (41.64%), and acenaphthene (36.18%). Chemotaxonomic considerations were carried out in order to confirm the phylogenetic reconstructions of Anthemideae.