Andrey Prjibelski
Cited by
Cited by
SPAdes: a new genome assembly algorithm and its applications to single-cell sequencing
A Bankevich, S Nurk, D Antipov, AA Gurevich, M Dvorkin, AS Kulikov, ...
Journal of computational biology 19 (5), 455-477, 2012
Assembling single-cell genomes and mini-metagenomes from chimeric MDA products
S Nurk, A Bankevich, D Antipov, AA Gurevich, A Korobeynikov, A Lapidus, ...
Journal of Computational Biology 20 (10), 714-737, 2013
Assembling genomes and mini-metagenomes from highly chimeric reads
S Nurk, A Bankevich, D Antipov, A Gurevich, A Korobeynikov, A Lapidus, ...
Annual International Conference on Research in Computational Molecular …, 2013
Versatile genome assembly evaluation with QUAST-LG
A Mikheenko, A Prjibelski, V Saveliev, D Antipov, A Gurevich
Bioinformatics 34 (13), i142-i150, 2018
rnaSPAdes: a de novo transcriptome assembler and its application to RNA-Seq data
E Bushmanova, D Antipov, A Lapidus, AD Prjibelski
GigaScience 8 (9), giz100, 2019
ExSPAnder: a universal repeat resolver for DNA fragment assembly
AD Prjibelski, I Vasilinetc, A Bankevich, A Gurevich, T Krivosheeva, ...
Bioinformatics 30 (12), i293-i301, 2014
rnaQUAST: a quality assessment tool for de novo transcriptome assemblies
E Bushmanova, D Antipov, A Lapidus, V Suvorov, AD Prjibelski
Bioinformatics 32 (14), 2210-2212, 2016
Using SPAdes de novo assembler
A Prjibelski, D Antipov, D Meleshko, A Lapidus, A Korobeynikov
Current protocols in bioinformatics 70 (1), e102, 2020
Icarus: visualizer for de novo assembly evaluation
A Mikheenko, G Valin, A Prjibelski, V Saveliev, A Gurevich
Bioinformatics 32 (21), 3321-3323, 2016
Versatile genome assembly evaluation with QUAST-LG. Bioinformatics 34: i142–i150
A Mikheenko, A Prjibelski, V Saveliev, D Antipov, A Gurevich
Assembling short reads from jumping libraries with large insert sizes
I Vasilinetc, AD Prjibelski, A Gurevich, A Korobeynikov, PA Pevzner
Bioinformatics 31 (20), 3262-3268, 2015
A spatially resolved brain region-and cell type-specific isoform atlas of the postnatal mouse brain
A Joglekar, A Prjibelski, A Mahfouz, P Collier, S Lin, AK Schlusche, ...
Nature Communications 12 (1), 1-16, 2021
De novo peptide sequencing reveals many cyclopeptides in the human gut and other environments
B Behsaz, H Mohimani, A Gurevich, A Prjibelski, M Fisher, F Vargas, ...
Cell systems 10 (1), 99-108. e5, 2020
Hybrid transcriptome sequencing approach improved assembly and gene annotation in Cynara cardunculus (L.)
GD Puglia, AD Prjibelski, D Vitale, E Bushmanova, KJ Schmid, ...
BMC genomics 21 (1), 1-17, 2020
Seed transcriptome annotation reveals enhanced expression of genes related to ROS homeostasis and ethylene metabolism at alternating temperatures in wild cardoon
HR Huarte, G Puglia, AD Prjibelski, SA Raccuia
Plants 9 (9), 1225, 2020
Extending rnaSPAdes functionality for hybrid transcriptome assembly
AD Prjibelski, GD Puglia, D Antipov, E Bushmanova, D Giordano, ...
BMC Bioinformatics 21 (302), 2020
SGTK: a toolkit for visualization and assessment of scaffold graphs
O Kunyavskaya, AD Prjibelski
Bioinformatics 35 (13), 2303-2305, 2019
De Novo Peptide Sequencing Reveals a Vast Cyclopeptidome in Human Gut and Other Environments.
B Behsaz, H Mohimani, AA Gurevich, AD Prjibelski, MF Fisher, L Smarr, ...
RECOMB, 289-291, 2019
Understanding complex dynamics of behavioral, neurochemical and transcriptomic changes induced by prolonged chronic unpredictable stress in zebrafish
KA Demin, AM Lakstygal, NA Krotova, A Masharsky, N Tagawa, ...
Scientific reports 10 (1), 1-20, 2020
Human pericentromeric tandemly repeated DNA is transcribed at the end of oocyte maturation and is associated with membraneless mitochondria-associated structures
MA Dobrynin, NM Korchagina, AD Prjibelski, D Shafranskaya, ...
Scientific reports 10 (1), 1-15, 2020
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Articles 1–20