motifcut < motifs < motility

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List of bibliographic references indexed by motifs

Number of relevant bibliographic references: 31.
[0-20] [0 - 20][0 - 31][20-30][20-40]

Ident.	Authors (with country if any)	Title
000679 (2019)	Jared Ostmeyer [États-Unis] ; Scott Christley [États-Unis] ; Inimary T. Toby [États-Unis] ; Lindsay G. Cowell [États-Unis]	Biophysicochemical Motifs in T-cell Receptor Sequences Distinguish Repertoires from Tumor-Infiltrating Lymphocyte and Adjacent Healthy Tissue.
000C95 (2017)	Malik Yousef [Israël] ; Waleed Khalifa [Israël] ; Lhan Erkin Acar ; Jens Allmer	MicroRNA categorization using sequence motifs and k-mers
000D54 (2017)	Ryohei Nakamura [Japon] ; Ayako Uno [Japon] ; Masahiko Kumagai [Japon] ; Shinichi Morishita [Japon] ; Hiroyuki Takeda [Japon]	Hypomethylated domain-enriched DNA motifs prepattern the accessible nucleosome organization in teleosts
001052 (2016)	Canping Huang [République populaire de Chine] ; Jianxun Qi [République populaire de Chine] ; Guangwen Lu [République populaire de Chine] ; Qihui Wang [République populaire de Chine] ; Yuan Yuan [République populaire de Chine] ; Ying Wu [République populaire de Chine] ; Yanfang Zhang [République populaire de Chine] ; Jinghua Yan [République populaire de Chine] ; George F. Gao [République populaire de Chine]	Putative Receptor Binding Domain of Bat-Derived Coronavirus HKU9 Spike Protein: Evolution of Betacoronavirus Receptor Binding Motifs
001286 (2016)	Soumitra Pal [États-Unis] ; Peng Xiao [États-Unis] ; Sanguthevar Rajasekaran [États-Unis]	Efficient sequential and parallel algorithms for finding edit distance based motifs
001468 (2016)	Danilo Ritz [Suisse] ; Andreas Gloger [Suisse] ; Benjamin Weide [Allemagne] ; Claus Garbe [Allemagne] ; Dario Neri [Suisse] ; Tim Fugmann [Suisse]	High‐sensitivity HLA class I peptidome analysis enables a precise definition of peptide motifs and the identification of peptides from cell lines and patients’ sera
001602 (2015)	Ezzeddin Kamil Mohamed Hashim [Malaisie] ; Rosni Abdullah [Malaisie]	Rare k-mer DNA: Identification of sequence motifs and prediction of CpG island and promoter.
001785 (2015)	Ximiao He [États-Unis] ; Khund Sayeed Syed [États-Unis] ; Desiree Tillo [États-Unis] ; Ishminder Mann [États-Unis] ; Matthew T. Weirauch [États-Unis] ; Charles Vinson [États-Unis]	GABPα Binding to Overlapping ETS and CRE DNA Motifs Is Enhanced by CREB1: Custom DNA Microarrays
002122 (2013)	Bianca R. Mothé [États-Unis] ; Scott Southwood [États-Unis] ; John Sidney [États-Unis] ; A. Michelle English [États-Unis] ; Amanda Wriston [États-Unis] ; Ilka Hoof [Danemark] ; Jeffrey Shabanowitz [États-Unis] ; Donald F. Hunt [États-Unis] ; Alessandro Sette [États-Unis]	Peptide-binding motifs associated with MHC molecules common in Chinese rhesus macaques are analogous to those of human HLA supertypes and include HLA-B27-like alleles
002227 (2012)	Raghunath Chatterjee [États-Unis] ; Jianfei Zhao [États-Unis] ; Ximiao He [États-Unis] ; Andrey Shlyakhtenko [États-Unis] ; Ishminder Mann [États-Unis] ; Joshua J. Waterfall [États-Unis] ; Paul Meltzer [États-Unis] ; B. K. Sathyanarayana [États-Unis] ; Peter C. Fitzgerald [États-Unis] ; Charles Vinson [États-Unis]	Overlapping ETS and CRE Motifs (G/CCGGAAGTGACGTCA) Preferentially Bound by GABPα and CREB Proteins
002237 (2012)	Dianhui Wang [Australie] ; Sarwar Tapan [Australie]	MISCORE: a new scoring function for characterizing DNA regulatory motifs in promoter sequences
002274 (2012)	Yaron Orenstein ; Chaim Linhart ; Ron Shamir	Assessment of Algorithms for Inferring Positional Weight Matrix Motifs of Transcription Factor Binding Sites Using Protein Binding Microarray Data
002625 (2010)	Xuejing Li [États-Unis] ; Casandra Panea [États-Unis] ; Chris H. Wiggins [États-Unis] ; Valerie Reinke [États-Unis] ; Christina Leslie [États-Unis]	Learning “graph-mer” Motifs that Predict Gene Expression Trajectories in Development
002764 (2009)	Sigve Nakken [Norvège] ; Torbj Rn Rognes [Norvège] ; Eivind Hovig [Norvège]	The disruptive positions in human G-quadruplex motifs are less polymorphic and more conserved than their neutral counterparts
002D06 (2006)	Eugene Fratkin [États-Unis] ; Brian T. Naughton ; Douglas L. Brutlag ; Serafim Batzoglou	MotifCut: regulatory motifs finding with maximum density subgraphs.
002D14 (2006)	Georgios S. Vernikos [Royaume-Uni] ; Julian Parkhill	Interpolated variable order motifs for identification of horizontally acquired DNA: revisiting the Salmonella pathogenicity islands.
002E73 (2005)	Laurence Ettwiller [Royaume-Uni] ; Benedict Paten [Royaume-Uni] ; Marcel Souren [Allemagne] ; Felix Loosli [Allemagne] ; Jochen Wittbrodt [Allemagne] ; Ewan Birney [Royaume-Uni]	The discovery, positioning and verification of a set of transcription-associated motifs in vertebrates
002F52 (2005)	Chaya Ben-Zaken Zilberstein [Israël] ; Eleazar Eskin [Israël] ; Zohar Yakhini	Using Expression Data to Discover RNA and DNA Regulatory Sequence Motifs
003025 (2005)	Samir V. Sawant [Inde] ; Kanti Kiran [Inde] ; Rajesh Mehrotra [Inde] ; Chandra Prakash Chaturvedi [Inde] ; Suraiya A. Ansari [Inde] ; Pratibha Singh [Inde] ; Niraj Lodhi [Inde] ; Rakesh Tuli [Inde]	A variety of synergistic and antagonistic interactions mediated by cis-acting DNA motifs regulate gene expression in plant cells and modulate stability of the transcription complex formed on a basal promoter
003074 (2004)	Xiang H-F Zhang [États-Unis] ; Lawrence A. Chasin	Computational definition of sequence motifs governing constitutive exon splicing.
003164 (2004)	Gary B. Fogel [États-Unis] ; Dana G. Weekes [États-Unis] ; Gabor Varga [États-Unis] ; Ernst R. Dow [États-Unis] ; Harry B. Harlow [États-Unis] ; Jude E. Onyia [États-Unis] ; Chen Su [États-Unis]	Discovery of sequence motifs related to coexpression of genes using evolutionary computation

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