The scientist’s investigation covers issues in Sequence alignment, Structural genomics, Computational biology, Bioinformatics and Biochemistry. His study in Sequence alignment is interdisciplinary in nature, drawing from both Pattern recognition, Artificial intelligence and Protein family. Lukasz Jaroszewski has included themes like Structural biology, Protein Data Bank and Protein Structure Initiative in his Structural genomics study.
His Computational biology research includes themes of Protein structure, Genetics, Protein domain and Metagenomics. His work in the fields of Biochemistry, such as Peptide sequence and Endopeptidase, overlaps with other areas such as Diamino acid. The various areas that Lukasz Jaroszewski examines in his Peptide sequence study include Hydrolase, Cysteine and Active site.
Lukasz Jaroszewski mainly investigates Biochemistry, Structural genomics, Crystal structure, Peptide sequence and Thermotoga maritima. His research on Biochemistry frequently links to adjacent areas such as Function. His Structural genomics research is multidisciplinary, relying on both Genetics, Computational biology, Protein folding and Protein family.
His Computational biology study which covers Bioinformatics that intersects with Structural alignment. His Crystal structure study combines topics from a wide range of disciplines, such as Resolution, Transferase and Stereochemistry. Lukasz Jaroszewski is interested in Sequence alignment, which is a field of Peptide sequence.
His scientific interests lie mostly in Protein structure, Biochemistry, Structural genomics, Genetics and Computational biology. His Protein structure research is multidisciplinary, incorporating perspectives in Algorithm, Sequence analysis and Protein Data Bank. His research in Sequence analysis intersects with topics in Information retrieval and Sequence alignment.
His studies examine the connections between Structural genomics and genetics, as well as such issues in Protein family, with regards to Bioinformatics, Protein Structure Initiative, Supplementary data, Sequence motif and Leucine-rich repeat. His studies in Genetics integrate themes in fields like Structural Classification of Proteins database and Cell biology. His work deals with themes such as Missense mutation, Protein function prediction, Cancer mutations and Genomics, which intersect with Computational biology.
His primary areas of study are Cell biology, Protein structure, Biochemistry, Bioinformatics and Genetics. His Cell biology research integrates issues from Protein superfamily, Molecular biology and Pilin. He mostly deals with Structural genomics in his studies of Protein structure.
In the field of Biochemistry, his study on Amidase, Hydrolase and Active site overlaps with subjects such as Tracheal cytotoxin and Lysin. His work carried out in the field of Bioinformatics brings together such families of science as Theoretical computer science and Sequence alignment. The Biogenesis, Pilus, Virulence and Human microbiome research Lukasz Jaroszewski does as part of his general Genetics study is frequently linked to other disciplines of science, such as Bacteroidia, therefore creating a link between diverse domains of science.
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The Sorcerer II Global Ocean Sampling expedition: expanding the universe of protein families.
Shibu Yooseph;Granger Sutton;Douglas B. Rusch;Aaron L Halpern.
PLOS Biology (2007)
Clustering of highly homologous sequences to reduce the size of large protein databases
Weizhong Li;Lukasz Jaroszewski;Adam Godzik.
Comparison of sequence profiles. Strategies for structural predictions using sequence information.
Leszek Rychlewski;Lukasz Jaroszewski;Weizhong Li;Adam Godzik.
Protein Science (2008)
FFAS03 : a server for profile-profile sequence alignments
Lukasz Jaroszewski;Leszek Rychlewski;Zhanwen Li;Weizhong Li.
Nucleic Acids Research (2005)
Structural genomics of the Thermotoga maritima proteome implemented in a high-throughput structure determination pipeline
Scott A. Lesley;Peter Kuhn;Adam Godzik;Ashley M. Deacon.
Proceedings of the National Academy of Sciences of the United States of America (2002)
Tolerating some redundancy significantly speeds up clustering of large protein databases.
Weizhong Li;Lukasz Jaroszewski;Adam Godzik.
XtalPred: a web server for prediction of protein crystallizability.
Lukasz Slabinski;Lukasz Jaroszewski;Leszek Rychlewski;Ian A. Wilson.
Derivation and testing of pair potentials for protein folding. When is the quasichemical approximation correct
Jeffrey Skolnick;Lukasz Jaroszewski;Andrzej Kolinski;Adam Godzik.
Protein Science (1997)
The importance of alignment accuracy for molecular replacement.
Robert Schwarzenbacher;Adam Godzik;Slawomir K. Grzechnik;Lukasz Jaroszewski.
Acta Crystallographica Section D-biological Crystallography (2004)
Structural Basis of Neutralization by a Human Anti-severe Acute Respiratory Syndrome Spike Protein Antibody, 80R
William C. Hwang;Yaqiong Lin;Eugenio Santelli;Jianhua Sui.
Journal of Biological Chemistry (2006)
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