AboutBlogDownloadExploreHelpGet Data
Email Us Mastodon BlueSky Facebook LinkedIn YouTube
Saccharomyces Genome Database
  • Saccharomyces Genome Database
    Saccharomyces Genome Database
  • Menu
  • Analyze
    • Gene Lists
    • BLAST
    • Fungal BLAST
    • GO Term Finder
    • GO Slim Mapper
    • Pattern Matching
    • Design Primers
    • Restriction Site Mapper
  • Sequence
    • Download
    • Genome Browser
    • BLAST
    • Fungal BLAST
    • Gene/Sequence Resources
    • Reference Genome
      • Download Genome
      • Genome Snapshot
      • Chromosome History
      • Systematic Sequencing Table
      • Original Sequence Papers
    • Strains and Species
      • Variant Viewer
      • Align Strain Sequences
    • Resources
      • UniProtKB
      • InterPro (EBI)
      • HomoloGene (NCBI)
      • YGOB (Trinity College)
      • AlphaFold
  • Function
    • Gene Ontology
      • GO Term Finder
      • GO Slim Mapper
      • GO Slim Mapping File
    • Expression
    • Biochemical Pathways
    • Phenotypes
      • Browse All Phenotypes
    • Interactions
    • YeastGFP
    • Resources
      • GO Consortium
      • BioGRID (U. Toronto)
  • Literature
    • Full-text Search
    • New Yeast Papers
    • YeastBook
    • Resources
      • PubMed (NCBI)
      • PubMed Central (NCBI)
      • Google Scholar
  • Community
    • Community Forum
    • Colleague Information
      • Find a Colleague
      • Add or Update Info
      • Find a Yeast Lab
    • Education
    • Meetings
    • Nomenclature
      • Submit a Gene Registration
      • Gene Registry
      • Nomenclature Conventions
    • Methods and Reagents
      • Strains
    • Historical Data
      • Physical & Genetic Maps
      • Genetic Maps
      • Genetic Loci
      • ORFMap Chromosomes
      • Sequence
    • Submit Data
    • API
  • Info & Downloads
    • About
    • Blog
    • Downloads
    • Site Map
    • Help
  • Author: Laurent JM
  • References

Author: Laurent JM


References 10 references


No citations for this author.

Download References (.nbib)

  • Abdullah M, et al. (2023) Rapid, scalable, combinatorial genome engineering by marker-less enrichment and recombination of genetically engineered loci in yeast. Cell Rep Methods 3(5):100464 PMID:37323580
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Zhao Y, et al. (2023) CREEPY: CRISPR-mediated editing of synthetic episomes in yeast. Nucleic Acids Res 51(13):e72 PMID:37326023
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Akhmetov A, et al. (2020) Erratum: Correction Notice: Single-step Precision Genome Editing in Yeast Using CRISPR-Cas9. Bio Protoc 10(7) PMID:38161732
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Garge RK, et al. (2020) Systematic Humanization of the Yeast Cytoskeleton Discerns Functionally Replaceable from Divergent Human Genes. Genetics 215(4):1153-1169 PMID:32522745
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Laurent JM, et al. (2020) Humanization of yeast genes with multiple human orthologs reveals functional divergence between paralogs. PLoS Biol 18(5):e3000627 PMID:32421706
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Akhmetov A, et al. (2018) Single-step Precision Genome Editing in Yeast Using CRISPR-Cas9. Bio Protoc 8(6) PMID:29770349
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Kachroo AH, et al. (2017) Systematic bacterialization of yeast genes identifies a near-universally swappable pathway. Elife 6 PMID:28661399
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Laurent JM, et al. (2016) Efforts to make and apply humanized yeast. Brief Funct Genomics 15(2):155-63 PMID:26462863
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Kachroo AH, et al. (2015) Evolution. Systematic humanization of yeast genes reveals conserved functions and genetic modularity. Science 348(6237):921-5 PMID:25999509
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • Laurent JM, et al. (2010) Protein abundances are more conserved than mRNA abundances across diverse taxa. Proteomics 10(23):4209-12 PMID:21089048
    • SGD Paper
    • DOI full text
    • PMC full text
    • PubMed
  • SGD
  • About
  • Blog
  • Help
  • Privacy Policy
  • Creative Commons License
© Stanford University, Stanford, CA 94305.
Back to Top