Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
about
Biosynthesis of levan, a bacterial extracellular polysaccharide, in the yeast Saccharomyces cerevisiaeProduction of benzylisoquinoline alkaloids in Saccharomyces cerevisiaeThe Last Piece in the Vitamin B1 Biosynthesis Puzzle: STRUCTURAL AND FUNCTIONAL INSIGHT INTO YEAST 4-AMINO-5-HYDROXYMETHYL-2-METHYLPYRIMIDINE PHOSPHATE (HMP-P) SYNTHASEStructure of the heterodimer of human NONO and paraspeckle protein component 1 and analysis of its role in subnuclear body formationA haploproficient interaction of the transaldolase paralogue NQM1 with the transcription factor VHR1 affects stationary phase survival and oxidative stress resistanceEvolutionary and genetic analyses of mitochondrial translation initiation factors identify the missing mitochondrial IF3 in S. cerevisiae.MHO1, an evolutionarily conserved gene, is synthetic lethal with PLC1; Mho1p has a role in invasive growth.The RNA binding protein Cwc2 interacts directly with the U6 snRNA to link the nineteen complex to the spliceosome during pre-mRNA splicingAn inducible chaperone adapts proteasome assembly to stress.Identification of Coq11, a new coenzyme Q biosynthetic protein in the CoQ-synthome in Saccharomyces cerevisiaeLam6 Regulates the Extent of Contacts between Organelles.Similarities between UDP-glucose and adenine nucleotide release in yeast: involvement of the secretory pathway.An evolutionarily conserved pathway controls proteasome homeostasisA minimal anaphase promoting complex/cyclosome (APC/C) in Trypanosoma bruceiEngineered pentafunctional minicellulosome for simultaneous saccharification and ethanol fermentation in Saccharomyces cerevisiaeSystematic screening of glycosylation- and trafficking-associated gene knockouts in Saccharomyces cerevisiae identifies mutants with improved heterologous exocellulase activity and host secretionBiosynthesis of cis,cis-muconic acid and its aromatic precursors, catechol and protocatechuic acid, from renewable feedstocks by Saccharomyces cerevisiaeA PLAC8-containing protein from an endomycorrhizal fungus confers cadmium resistance to yeast cells by interacting with Mlh3pIndustrial fuel ethanol yeasts contain adaptive copy number changes in genes involved in vitamin B1 and B6 biosynthesisNovel Interactome of Saccharomyces cerevisiae Myosin Type II Identified by a Modified Integrated Membrane Yeast Two-Hybrid (iMYTH) Screen.Functional characterization of human COQ4, a gene required for Coenzyme Q10 biosynthesis.Legionella pneumophila prevents proliferation of its natural host Acanthamoeba castellanii.Molecular characterization of the human COQ5 C-methyltransferase in coenzyme Q10 biosynthesis.Tomosyn interacts with the SUMO E3 ligase PIASγ.Altered target site specificity variants of the I-PpoI His-Cys box homing endonuclease.Cep70 and Cep131 contribute to ciliogenesis in zebrafish embryos.Functional overlap between eIF4G isoforms in Saccharomyces cerevisiae.Formation of complex and unstable chromosomal translocations in yeastA novel constructed SPT15 mutagenesis library of Saccharomyces cerevisiae by using gTME technique for enhanced ethanol productionIn vivo targeted delivery of CD40 shRNA to mouse intestinal dendritic cells by oral administration of recombinant Sacchromyces cerevisiae.Single molecule tracking fluorescence microscopy in mitochondria reveals highly dynamic but confined movement of Tom40.Asn124 of Cel5A from Hypocrea jecorina not only provides the N-glycosylation site but is also essential in maintaining enzymatic activityInteraction between M-like protein and macrophage thioredoxin facilitates antiphagocytosis for Streptococcus equi ssp. zooepidemicus.Overexpression of DNA polymerase zeta reduces the mitochondrial mutability caused by pathological mutations in DNA polymerase gamma in yeast.Identification and characterization of novel SNPs in CHEK2 in Ashkenazi Jewish men with prostate cancerA systematic approach to pair secretory cargo receptors with their cargo suggests a mechanism for cargo selection by Erv14.Low level genome mistranslations deregulate the transcriptome and translatome and generate proteotoxic stress in yeast.Functionality of the Paracoccidioides mating α-pheromone-receptor system.MasABK proteins interact with proteins of the type IV pilin system to affect social motility of Myxococcus xanthus.Saccharomyces cerevisiae biofilm tolerance towards systemic antifungals depends on growth phase
P2860
Q21089742-116FE2E4-6521-4E05-8C42-DD5FEA7C1465Q24634379-2743AD3B-7163-4915-BFCC-24573F198B5FQ27674366-89011C24-C5FD-4CAB-85DC-A6F95C1083DAQ27678041-78374385-9D06-4828-A502-1991071F7919Q27930513-F260C71A-B162-4969-9742-A824C567BA5CQ27931220-36BE0CA7-7045-438B-8CBB-CDF5B02F7606Q27931248-2BFB18BA-E10A-48C9-9A1E-260B4244897EQ27931506-DDB9A45F-DECC-40A9-900E-2C5B76B25B5CQ27933155-792C2EE4-9D01-47E8-9986-5C5E1ECE86CBQ27937361-E7708DDD-D5C6-4CE9-924C-AA3E3E7D8C02Q27939360-6EB8A723-F6AE-4ED5-975D-0DC1BD91D776Q27940175-418D0258-248A-465D-9AA1-946B851EFD61Q28114326-4DD9B5E1-4F8B-466E-9595-5C2B1CC222A0Q28488783-A5AFAD80-B684-412D-95F1-50D124323891Q28650838-32DB29B6-040C-4A05-A814-6F2973C8EB2CQ28681135-4BBC890C-2447-4FA4-97DB-DC0684B36AAAQ28713061-66C1316E-518A-4326-840A-E01B3DA47F84Q28744679-E5C6C95C-D904-47C9-BEDD-32C469A281ADQ28749566-B14BC2CF-A9DC-4040-93D4-B2F757DF5CDFQ30009012-C5633DB2-2472-45E6-B30E-239B657503EFQ30623121-D1B3C443-50B5-459D-BB01-5B2AEE4F6664Q30827147-79CDD52C-8369-4F89-A563-A11097051239Q30961872-CEB1B01E-8483-4D87-B7CD-872CDBCB38B3Q31153788-0B06E01D-6B09-499B-A86E-053FB8B6F644Q33295151-774A18EC-C598-41B1-9909-EE1CAA7FCCEDQ33413993-21ED8962-E570-4701-9671-1E020D2308F5Q33531761-70C70CE1-93AA-466A-93EB-59EB0EAADC68Q33658529-DC6FF8DA-445E-48FF-9FD3-B14095EA64A1Q33758635-276710F5-F6CC-4111-9BB8-7CC2EA392A1BQ33863257-986FF5FE-B08A-4B32-9CF5-1B49FB2D4456Q34166674-AA4F6758-3B31-41B6-B2CF-18B9E07F53F6Q34179895-D2C53576-DF46-4FAA-9B90-A5312A7E4EE7Q34182263-59D91350-0F31-4480-9A7B-C87CDD3A309DQ34217894-D919F60B-737C-4436-840D-221375B8DBF3Q34263742-AD6703BC-A1CC-4B5B-86F3-2994DECADEC4Q34281465-CB0D4542-EBD4-49D6-9F89-6CA88E6DBA2BQ34310595-7E0DECA4-0D25-45EC-80B5-A22005976557Q34442724-C29B2CA5-3B3A-44E1-A4A8-AD0400F9DEE6Q34559543-F862DA57-E07F-444D-A0CC-27E8A73F1303Q34643153-429877A0-4AF6-4B5B-9F14-08175A51222E
P2860
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@ast
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@en
type
label
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@ast
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@en
prefLabel
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@ast
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@en
P1476
Yeast transformation by the LiAc/SS Carrier DNA/PEG method.
@en
P2093
R Daniel Gietz
Robin A Woods
P304
P356
10.1385/1-59259-958-3:107
P407
P577
2006-01-01T00:00:00Z