List of bibliographic references
Number of relevant bibliographic references: 33.
[0-20] [
0 - 20][
0 - 33][
20-32][
20-40]
| Ident. | Authors (with country if any) | Title |
|---|
| 000005 (1999) |
O. Van Wuytswinkel [France] ; G. Vansuyt ; N. Grignon ; P. Fourcroy ; J F Briat | Iron homeostasis alteration in transgenic tobacco overexpressing ferritin. |
| 000009 (1999) |
F G Hanisch [Allemagne] ; S. Müller ; H. Hassan ; H. Clausen ; N. Zachara ; A A Gooley ; H. Paulsen ; K. Alving ; J. Peter-Katalinic | Dynamic epigenetic regulation of initial O-glycosylation by UDP-N-Acetylgalactosamine:Peptide N-acetylgalactosaminyltransferases. site-specific glycosylation of MUC1 repeat peptide influences the substrate qualities at adjacent or distant Ser/Thr positions. |
| 000010 (1999) |
J L Johnson [États-Unis] ; D C Norcross ; P. Arosio ; R B Frankel ; G D Watt | Redox reactivity of animal apoferritins and apoheteropolymers assembled from recombinant heavy and light human chain ferritins. |
| 000071 (2000) |
Y. Pommier [États-Unis] ; G S Laco ; G. Kohlhagen ; J M Sayer ; H. Kroth ; D M Jerina | Position-specific trapping of topoisomerase I-DNA cleavage complexes by intercalated benzo[a]- pyrene diol epoxide adducts at the 6-amino group of adenine. |
| 000144 (2002) |
Kieu X. Luu [États-Unis] ; Sreenivas Kanugula ; Anthony E. Pegg ; Gary T. Pauly ; Robert C. Moschel | Repair of oligodeoxyribonucleotides by O(6)-alkylguanine-DNA alkyltransferase. |
| 000332 (2005) |
Yufei Wang [Royaume-Uni] ; Trevor Whittall ; Edward Mcgowan ; Justine Younson ; Charles Kelly ; Lesley A. Bergmeier ; Mahavir Singh ; Thomas Lehner | Identification of stimulating and inhibitory epitopes within the heat shock protein 70 molecule that modulate cytokine production and maturation of dendritic cells. |
| 000422 (1991) |
E Z Baum [États-Unis] ; G A Bebernitz ; O. Palant ; T. Mueller ; S J Plotch | Purification, properties, and mutagenesis of poliovirus 3C protease. |
| 000424 (2006) |
Yi-Te Chou [États-Unis] ; Shihua Yao ; Robert Czerwinski ; Margaret Fleming ; Rustem Krykbaev ; Dejun Xuan ; Huanfang Zhou ; Jonathan Brooks ; Lori Fitz ; James Strand ; Eleonora Presman ; Laura Lin ; Ann Aulabaugh ; Xinyi Huang | Kinetic characterization of recombinant human acidic mammalian chitinase. |
| 000472 (2006) |
Keiko Yamaguchi [Japon] ; Hirotoshi Tamaki ; Shigeyuki Fukui | Detection of oligosaccharide ligands for hepatocyte growth factor/scatter factor (HGF/SF), keratinocyte growth factor (KGF/FGF-7), RANTES and heparin cofactor II by neoglycolipid microarrays of glycosaminoglycan-derived oligosaccharide fragments. |
| 000507 (2007) |
Ekaterina A. Maltseva [Russie] ; Nadejda I. Rechkunova ; Ludovic C. Gillet ; Irina O. Petruseva ; Orlando D. Sch Rer ; Olga I. Lavrik | Crosslinking of the NER damage recognition proteins XPC-HR23B, XPA and RPA to photoreactive probes that mimic DNA damages. |
| 000683 (2009) |
Tanmay Dutta [États-Unis] ; Murray P. Deutscher | Catalytic properties of RNase BN/RNase Z from Escherichia coli: RNase BN is both an exo- and endoribonuclease. |
| 000890 (1990) |
T A Griffin ; D T Chuang | Genetic reconstruction and characterization of the recombinant transacylase (E2b) component of bovine branched-chain alpha-keto acid dehydrogenase complex. Implication of histidine 391 as an active site residue. |
| 000939 (2012) |
Chris D. Willis [États-Unis] ; Taiji Oashi ; Ben Busby ; Alexander D. Mackerell ; Robert J. Bloch | Hydrophobic residues in small ankyrin 1 participate in binding to obscurin. |
| 000947 (2012) |
Carol L. Ladner [Canada] ; David S. Wishart | Resolution-enhanced native acidic gel electrophoresis: a method for resolving, sizing, and quantifying prion protein oligomers. |
| 000949 (1990) |
M. Buvoli [Italie] ; F. Cobianchi ; G. Biamonti ; S. Riva | Recombinant hnRNP protein A1 and its N-terminal domain show preferential affinity for oligodeoxynucleotides homologous to intron/exon acceptor sites. |
| 000C24 (2013) |
Yang Yang [République populaire de Chine] ; Ling Zhang [République populaire de Chine] ; Heyuan Geng [République populaire de Chine] ; Yao Deng [République populaire de Chine] ; Baoying Huang [République populaire de Chine] ; Yin Guo [République populaire de Chine] ; Zhengdong Zhao [République populaire de Chine] ; Wenjie Tan [République populaire de Chine] | The structural and accessory proteins M, ORF 4a, ORF 4b, and ORF 5 of Middle East respiratory syndrome coronavirus (MERS-CoV) are potent interferon antagonists |
| 000C94 (2014) |
Arlene Barlan [États-Unis] ; Jincun Zhao ; Mayukh K. Sarkar ; Kun Li ; Paul B. Mccray ; Stanley Perlman ; Tom Gallagher | Receptor variation and susceptibility to Middle East respiratory syndrome coronavirus infection. |
| 000E74 (2014) |
Yahira M. Báez-Santos [États-Unis] ; Anna M. Mielech [États-Unis] ; Xufang Deng [États-Unis] ; Susan Baker [États-Unis] ; Andrew D. Mesecar [États-Unis] | Catalytic function and substrate specificity of the papain-like protease domain of nsp3 from the Middle East respiratory syndrome coronavirus. |
| 001015 (2015) |
Paul H. Weigel [États-Unis] ; Christopher M. West [États-Unis] ; Peng Zhao [États-Unis] ; Lance Wells [États-Unis] ; Bruce A. Baggenstoss [États-Unis] ; Jennifer L. Washburn [États-Unis] | Hyaluronan synthase assembles chitin oligomers with -GlcNAc(α1→)UDP at the reducing end. |
| 001137 (2015) |
Sakshi Tomar ; Melanie L. Johnston [États-Unis] ; Sarah E. St. John ; Heather L. Osswald [États-Unis] ; Prasanth R. Nyalapatla [États-Unis] ; Lake N. Paul ; Arun K. Ghosh [États-Unis] ; Mark R. Denison ; Andrew D. Mesecar [États-Unis] | Ligand-induced Dimerization of Middle East Respiratory Syndrome
(MERS) Coronavirus nsp5 Protease (3CLpro) |
| 001156 (2015) |
Luis Martinez-Rodriguez [États-Unis] ; Ozgün Erdogan [États-Unis] ; Mariel Jimenez-Rodriguez [États-Unis] ; Katiria Gonzalez-Rivera [États-Unis] ; Tishan Williams [États-Unis] ; Li Li [États-Unis] ; Violetta Weinreb [États-Unis] ; Martha Collier [États-Unis] ; Srinivas Niranj Chandrasekaran [États-Unis] ; Xavier Ambroggio [États-Unis] ; Brian Kuhlman [États-Unis] ; Charles W. Carter [États-Unis] | Functional Class I and II Amino Acid-activating Enzymes Can Be Coded by Opposite Strands of the Same Gene. |
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