Saul Surrey mainly investigates Molecular biology, Genetics, Gene, Nucleic acid sequence and Exon. His Molecular biology research incorporates themes from Thalassemia, Peptide sequence, Genomic library, Complementary DNA and Platelet activation. His work in the fields of Genetics, such as Locus, Nonsyndromic deafness, Frameshift mutation and Chromosome 13, intersects with other areas such as GJB6.
His work on Globin and Microarray analysis techniques as part of general Gene study is frequently connected to Bacteriophage, Protocol and Algorithm, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. In his research on the topic of Nucleic acid sequence, Primer extension, Untranslated region, Intron and genomic DNA is strongly related with Coding region. Saul Surrey has included themes like Immunogenetics, Antibody and Messenger RNA, Northern blot in his Exon study.
Saul Surrey mostly deals with Genetics, Molecular biology, Gene, Globin and Stereochemistry. His work is connected to Haplotype, DNA, Mutation, Thalassemia and Allele, as a part of Genetics. His Molecular biology study integrates concerns from other disciplines, such as Receptor, Biochemistry, Complementary DNA, Exon and Polymerase chain reaction.
His study in the field of Nucleic acid and Na+/K+-ATPase also crosses realms of Mean corpuscular hemoglobin concentration and Microcytosis. His Globin study which covers Hemoglobinopathy that intersects with Sickle cell anemia. His Stereochemistry study incorporates themes from Amino acid, Hemoglobin, Polymerization, Beta and Hemeprotein.
Saul Surrey focuses on Molecular biology, Genetics, Globin, Genotyping and Biochemistry. His study in Molecular biology is interdisciplinary in nature, drawing from both Gene expression profiling, Receptor, Regulation of gene expression, Gene and HOXA4. The study incorporates disciplines such as Histone deacetylase, Sodium butyrate and Cell-free system in addition to Globin.
The various areas that Saul Surrey examines in his Genotyping study include genomic DNA, DNA, Nucleic acid thermodynamics and Multiplex. His work in the fields of Biochemistry, such as Amino acid, Nucleic acid sequence and Polynucleotide, intersects with other areas such as Diagnostic test and Substrate. His Amino acid research includes themes of Stereochemistry and Solubility.
The scientist’s investigation covers issues in Genetics, Molecular biology, Gene expression profiling, Microarray and Genotyping. His research links Cell biology with Genetics. His Molecular biology research includes elements of Cell, K562 cells, Cellular differentiation, Regulatory sequence and Inflammation.
The subject of his Microarray research is within the realm of Gene. Saul Surrey combines subjects such as Familial adenomatous polyposis and Neurofibromatosis with his study of Gene. His Genotyping research incorporates elements of Nucleic acid thermodynamics and Oligonucleotide.
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Connexin26 Mutations Associated with the Most Common Form of Non-Syndromic Neurosensory Autosomal Recessive Deafness (DFNB1) in Mediterraneans
Leopoldo Zelante;Paolo Gasparini;Xavier Estivill;Salvatore Melchionda.
Human Molecular Genetics (1997)
Connexin-26 mutations in sporadic and inherited sensorineural deafness
Xavier Estivill;Paolo Fortina;Saul Surrey;Raquel Rabionet.
The Lancet (1998)
Construction of Human Gene Libraries from Small Amounts cf Peripheral Blood: Analysis of β-Like Globin Genes
M. Poncz;D. Solowiejczyk;B. Harpel;Y. Mory.
Structure of the platelet membrane glycoprotein IIb. Homology to the alpha subunits of the vitronectin and fibronectin membrane receptors.
M Poncz;R Eisman;R Heidenreich;S M Silver.
Journal of Biological Chemistry (1987)
"Nonrandom" DNA sequence analysis in bacteriophage M13 by the dideoxy chain-termination method
M Poncz;D Solowiejczyk;M Ballantine;E Schwartz.
Proceedings of the National Academy of Sciences of the United States of America (1982)
Nanobiotechnology: the promise and reality of new approaches to molecular recognition.
Paolo Fortina;Larry J. Kricka;Saul Surrey;Piotr Grodzinski.
Trends in Biotechnology (2005)
The role of the human Fc receptor Fc gamma RIIA in the immune clearance of platelets: a transgenic mouse model.
Steven E. McKenzie;Scott M. Taylor;Padmini Malladi;Heena Yuhan.
Journal of Immunology (1999)
Organization of the gene for platelet glycoprotein IIb
Randy Heidenreich;Robin Eisman;Saul Surrey;Kathleen Delgrosso.
Rheologic predictors of the severity of the painful sickle cell crisis.
SK Ballas;J Larner;ED Smith;S Surrey.
Structural and functional comparison of the genes for human platelet factor 4 and PF4alt.
Robin Eisman;Saul Surrey;Banumathi Ramachandran;Elias Schwartz.
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