Pages that link to "Q36886093"

The following pages link to Database Divisions and Homology Search Files: A Guide for the Perplexed (Q36886093):

Displaying 39 items.

• A bacterial artificial chromosome library for sequencing the complete human genome (Q22065763) (← links)
• A new gene family including DSCR1 (Down Syndrome Candidate Region 1) and ZAKI-4: characterization from yeast to human and identification of DSCR1-like 2, a novel human member (DSCR1L2) (Q22253857) (← links)
• Novel human ZAKI-4 isoforms: hormonal and tissue-specific regulation and function as calcineurin inhibitors (Q24534634) (← links)
• DDBJ in preparation for overview of research activities behind data submissions. (Q25255926) (← links)
• Genomic organisation, alternative splicing and primary structure of human matrilin-4 (Q28119128) (← links)
• Cysteine and tyrosine-rich 1 (CYYR1), a novel unpredicted gene on human chromosome 21 (21q21.2), encodes a cysteine and tyrosine-rich protein and defines a new family of highly conserved vertebrate-specific genes (Q28204321) (← links)
• High-resolution physical and transcript map of human chromosome 2p21 containing the sitosterolaemia locus. (Q28365983) (← links)
• GenBank: update (Q29615400) (← links)
• GenBank (Q30324408) (← links)
• An effective approach for analyzing "prefinished" genomic sequence data (Q30558390) (← links)
• Making effective use of human genomic sequence data (Q31347443) (← links)
• Nucleotide sequence databases: a gold mine for biologists (Q33677010) (← links)
• High Rhodotorula sequences in skin transcriptome of patients with diffuse systemic sclerosis (Q33916720) (← links)
• A physical map, including a BAC/PAC clone contig, of the Williams-Beuren syndrome--deletion region at 7q11.23 (Q34146234) (← links)
• Microsatellite mutation models: insights from a comparison of humans and chimpanzees (Q34567082) (← links)
• Identification of a locus for a form of spondyloepiphyseal dysplasia on chromosome 15q26.1: exclusion of aggrecan as a candidate gene (Q35440367) (← links)
• WebWise: Navigating the Human Genome Project: Table 1 (Q36891408) (← links)
• Lack of mutations of type 1 11beta-hydroxysteroid dehydrogenase gene in patients with abdominal obesity (Q43655183) (← links)
• The murine DSCR1-like (Down syndrome candidate region 1) gene family: conserved synteny with the human orthologous genes. (Q47814074) (← links)
• MHC class I-like genes in cattle, MHCLA, with similarity to genes encoding NK cell stimulatory ligands. (Q47989787) (← links)
• Gene expression informatics--it's all in your mine (Q50150214) (← links)
• Tracing the evolution of the heterotrimeric G protein α subunit in Metazoa. (Q52593449) (← links)
• Towards Automated Prediction of Protein Function from Microbial Genomic Sequences (Q57859973) (← links)
• The Bermuda Triangle: The Pragmatics, Policies, and Principles for Data Sharing in the History of the Human Genome Project (Q58616987) (← links)
• GenBank (Q73943292) (← links)
• GenBank (Q77374582) (← links)
• Patent searches for genetic sequences: how to retrieve relevant records from patented sequence databases (Q78581699) (← links)
• GenBank (Q78768024) (← links)
• A User's Guide to the Human Genome. Introduction: putting it together (Q79209092) (← links)
• Question 1 How does one find a gene of interest and determine that gene's structure? Once the gene has been located on the map, how does one easily examine other genes in that same region? (Q79209094) (← links)
• A User's Guide to the Human Genome. Question 2. How can sequence-tagged sites within a DNA sequence be identified? (Q79209097) (← links)
• A User's Guide to the Human Genome. Question 3. During a positional cloning project aimed at finding a human disease gene, linkage data have been obtained suggesting that the gene of interest lies between two sequence-tagged site markers. How can al (Q79209101) (← links)
• A User's Guide to the Human Genome. Question 4. A user wishes to find all the single nucleotide polymorphisms that lie between two sequence-tagged sites. Do any of these single nucleotide polymorphisms fall within the coding region of a gene? Where (Q79209104) (← links)
• Question 5 Given a fragment of mRNA sequence, how would one find where that piece of DNA mapped in the human genome? Once its position has been determined, how would one find alternatively-spliced transcripts? (Q79209108) (← links)
• Question 7 How would an investigator easily find compiled information describing the structure of a gene of interest? Is it possible to obtain the sequence of any putative promoter regions? (Q79209114) (← links)
• A User's Guide to the Human Genome. Question 10. For a given protein, how can one determine whether it contains any functional domains of interest? What other proteins contain the same functional domains as this protein? How can one determine whethe (Q79209120) (← links)
• Question 11 An investigator has identified and cloned a human gene, but no corresponding mouse ortholog has yet been identified. How can a mouse genomic sequence with similarity to the human gene sequence be retrieved? (Q79209122) (← links)
• A User's Guide to the Human Genome. Question 12. How does a user find characterized mouse mutants corresponding to human genes? (Q79209124) (← links)
• A User's Guide to the Human Genome. Commentary: keeping biology in mind (Q79209128) (← links)