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  1. Article ; Online: Rare genetic variation in fibronectin 1 (FN1) protects against APOEε4 in Alzheimer's disease.

    Bhattarai, Prabesh / Gunasekaran, Tamil Iniyan / Belloy, Michael E / Reyes-Dumeyer, Dolly / Jülich, Dörthe / Tayran, Hüseyin / Yilmaz, Elanur / Flaherty, Delaney / Turgutalp, Bengisu / Sukumar, Gauthaman / Alba, Camille / McGrath, Elisa Martinez / Hupalo, Daniel N / Bacikova, Dagmar / Le Guen, Yann / Lantigua, Rafael / Medrano, Martin / Rivera, Diones / Recio, Patricia /
    Nuriel, Tal / Ertekin-Taner, Nilüfer / Teich, Andrew F / Dickson, Dennis W / Holley, Scott / Greicius, Michael / Dalgard, Clifton L / Zody, Michael / Mayeux, Richard / Kizil, Caghan / Vardarajan, Badri N

    Acta neuropathologica

    2024  Volume 147, Issue 1, Page(s) 70

    Abstract: The risk of developing Alzheimer's disease (AD) significantly increases in individuals carrying the APOEε4 allele. Elderly cognitively healthy individuals with APOEε4 also exist, suggesting the presence of cellular mechanisms that counteract the ... ...

    Abstract The risk of developing Alzheimer's disease (AD) significantly increases in individuals carrying the APOEε4 allele. Elderly cognitively healthy individuals with APOEε4 also exist, suggesting the presence of cellular mechanisms that counteract the pathological effects of APOEε4; however, these mechanisms are unknown. We hypothesized that APOEε4 carriers without dementia might carry genetic variations that could protect them from developing APOEε4-mediated AD pathology. To test this, we leveraged whole-genome sequencing (WGS) data in the National Institute on Aging Alzheimer's Disease Family Based Study (NIA-AD FBS), Washington Heights/Inwood Columbia Aging Project (WHICAP), and Estudio Familiar de Influencia Genetica en Alzheimer (EFIGA) cohorts and identified potentially protective variants segregating exclusively among unaffected APOEε4 carriers. In homozygous unaffected carriers above 70 years old, we identified 510 rare coding variants. Pathway analysis of the genes harboring these variants showed significant enrichment in extracellular matrix (ECM)-related processes, suggesting protective effects of functional modifications in ECM proteins. We prioritized two genes that were highly represented in the ECM-related gene ontology terms, (FN1) and collagen type VI alpha 2 chain (COL6A2) and are known to be expressed at the blood-brain barrier (BBB), for postmortem validation and in vivo functional studies. An independent analysis in a large cohort of 7185 APOEε4 homozygous carriers found that rs140926439 variant in FN1 was protective of AD (OR = 0.29; 95% CI [0.11, 0.78], P = 0.014) and delayed age at onset of disease by 3.37 years (95% CI [0.42, 6.32], P = 0.025). The FN1 and COL6A2 protein levels were increased at the BBB in APOEε4 carriers with AD. Brain expression of cognitively unaffected homozygous APOEε4 carriers had significantly lower FN1 deposition and less reactive gliosis compared to homozygous APOEε4 carriers with AD, suggesting that FN1 might be a downstream driver of APOEε4-mediated AD-related pathology and cognitive decline. To validate our findings, we used zebrafish models with loss-of-function (LOF) mutations in fn1b-the ortholog for human FN1. We found that fibronectin LOF reduced gliosis, enhanced gliovascular remodeling, and potentiated the microglial response, suggesting that pathological accumulation of FN1 could impair toxic protein clearance, which is ameliorated with FN1 LOF. Our study suggests that vascular deposition of FN1 is related to the pathogenicity of APOEε4, and LOF variants in FN1 may reduce APOEε4-related AD risk, providing novel clues to potential therapeutic interventions targeting the ECM to mitigate AD risk.
    MeSH term(s) Aged ; Animals ; Humans ; Alzheimer Disease/genetics ; Fibronectins/genetics ; Genetic Variation/genetics ; Gliosis ; Zebrafish
    Chemical Substances Fibronectins ; ApoE protein, human ; FN1 protein, human
    Language English
    Publishing date 2024-04-10
    Publishing country Germany
    Document type Journal Article
    ZDB-ID 1079-0
    ISSN 1432-0533 ; 0001-6322
    ISSN (online) 1432-0533
    ISSN 0001-6322
    DOI 10.1007/s00401-024-02721-1
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  2. Article: The ORMs interact with transmembrane domain 1 of Lcb1 and regulate serine palmitoyltransferase oligomerization, activity and localization

    Han, Gongshe / Gupta, Sita D / Gable, Kenneth / Bacikova, Dagmar / Sengupta, Nivedita / Somashekarappa, Niranjanakumari / Proia, Richard L / Harmon, Jeffrey M / Dunn, Teresa M

    Biochimica et biophysica acta. 2019 Mar., v. 1864, no. 3

    2019  

    Abstract: Serine palmitoyltransferase (SPT), an endoplasmic reticulum-localized membrane enzymecomposed of acatalytic LCB1/LCB2 heterodimer and a small activating subunit (Tsc3 in yeast; ssSPTs in mammals), is negatively regulated by the evolutionarily conserved ... ...

    Abstract Serine palmitoyltransferase (SPT), an endoplasmic reticulum-localized membrane enzymecomposed of acatalytic LCB1/LCB2 heterodimer and a small activating subunit (Tsc3 in yeast; ssSPTs in mammals), is negatively regulated by the evolutionarily conserved family of proteins known as the ORMs. In yeast, SPT, the ORMs, and the PI4P phosphatase Sac1, copurify in the “SPOTs” complex. However, neither the mechanism of ORM inhibition of SPT nor details of the interactions of the ORMs and Sac1 with SPT are known. Here we report that the first transmembrane domain (TMD1) of Lcb1 is required for ORM binding to SPT. Loss of binding is not due to altered membrane topology of Lcb1 since replacing TMD1 with a heterologous TMD restores membrane topology but not ORM binding. TMD1 deletion also eliminates ORM-dependent formation of SPT oligomers as assessed by co-immunoprecipitation assays and in vivo imaging. Expression of ORMs lacking derepressive phosphorylation sites results in constitutive SPT oligomerization, while phosphomimetic ORMs fail to induce oligomerization under any conditions. Significantly, when LCB1–RFP and LCB1ΔTMD1–GFP were coexpressed, more LCB1ΔTMD1–GFP was in the peripheral ER, suggesting ORM regulation is partially accomplished by SPT redistribution. Tsc3 deletion does not abolish ORM inhibition of SPT, indicating the ORMs do not simply prevent activation by Tsc3. Binding of Sac1 to SPT requires Tsc3, but not the ORMs, and Sac1 does not influence ORM-mediated oligomerization of SPT. Finally, yeast mutants lacking ORM regulation of SPT require the LCB-P lyase Dpl1 to maintain long-chain bases at sublethal levels.
    Keywords image analysis ; mammals ; mutants ; oligomerization ; phosphorylation ; precipitin tests ; proteins ; serine C-palmitoyltransferase ; topology ; yeasts
    Language English
    Dates of publication 2019-03
    Size p. 245-259.
    Publishing place Elsevier B.V.
    Document type Article
    ISSN 1388-1981
    DOI 10.1016/j.bbalip.2018.11.007
    Database NAL-Catalogue (AGRICOLA)

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  3. Article ; Online: The ORMs interact with transmembrane domain 1 of Lcb1 and regulate serine palmitoyltransferase oligomerization, activity and localization.

    Han, Gongshe / Gupta, Sita D / Gable, Kenneth / Bacikova, Dagmar / Sengupta, Nivedita / Somashekarappa, Niranjanakumari / Proia, Richard L / Harmon, Jeffrey M / Dunn, Teresa M

    Biochimica et biophysica acta. Molecular and cell biology of lipids

    2018  Volume 1864, Issue 3, Page(s) 245–259

    Abstract: Serine palmitoyltransferase (SPT), an endoplasmic reticulum-localized membrane enzymecomposed of acatalytic LCB1/LCB2 heterodimer and a small activating subunit (Tsc3 in yeast; ssSPTs in mammals), is negatively regulated by the evolutionarily conserved ... ...

    Abstract Serine palmitoyltransferase (SPT), an endoplasmic reticulum-localized membrane enzymecomposed of acatalytic LCB1/LCB2 heterodimer and a small activating subunit (Tsc3 in yeast; ssSPTs in mammals), is negatively regulated by the evolutionarily conserved family of proteins known as the ORMs. In yeast, SPT, the ORMs, and the PI4P phosphatase Sac1, copurify in the "SPOTs" complex. However, neither the mechanism of ORM inhibition of SPT nor details of the interactions of the ORMs and Sac1 with SPT are known. Here we report that the first transmembrane domain (TMD1) of Lcb1 is required for ORM binding to SPT. Loss of binding is not due to altered membrane topology of Lcb1 since replacing TMD1 with a heterologous TMD restores membrane topology but not ORM binding. TMD1 deletion also eliminates ORM-dependent formation of SPT oligomers as assessed by co-immunoprecipitation assays and in vivo imaging. Expression of ORMs lacking derepressive phosphorylation sites results in constitutive SPT oligomerization, while phosphomimetic ORMs fail to induce oligomerization under any conditions. Significantly, when LCB1-RFP and LCB1ΔTMD1-GFP were coexpressed, more LCB1ΔTMD1-GFP was in the peripheral ER, suggesting ORM regulation is partially accomplished by SPT redistribution. Tsc3 deletion does not abolish ORM inhibition of SPT, indicating the ORMs do not simply prevent activation by Tsc3. Binding of Sac1 to SPT requires Tsc3, but not the ORMs, and Sac1 does not influence ORM-mediated oligomerization of SPT. Finally, yeast mutants lacking ORM regulation of SPT require the LCB-P lyase Dpl1 to maintain long-chain bases at sublethal levels.
    MeSH term(s) Acyltransferases/metabolism ; Adaptor Proteins, Signal Transducing/metabolism ; Adaptor Proteins, Signal Transducing/physiology ; Amino Acid Sequence ; Animals ; CHO Cells ; Cricetulus ; Endoplasmic Reticulum/metabolism ; Membrane Proteins/metabolism ; Membrane Proteins/physiology ; Phosphoric Monoester Hydrolases/metabolism ; Protein Binding ; Proteins/metabolism ; Saccharomyces cerevisiae/metabolism ; Saccharomyces cerevisiae Proteins/metabolism ; Saccharomyces cerevisiae Proteins/physiology ; Serine C-Palmitoyltransferase/metabolism ; Serine C-Palmitoyltransferase/physiology ; Sphingolipids/metabolism
    Chemical Substances Adaptor Proteins, Signal Transducing ; Membrane Proteins ; Orm1 protein, S cerevisiae ; Orm2 protein, S cerevisiae ; Proteins ; Saccharomyces cerevisiae Proteins ; Sphingolipids ; TSC3 protein, S cerevisiae ; Acyltransferases (EC 2.3.-) ; LCB1 protein, S cerevisiae (EC 2.3.1.50) ; Serine C-Palmitoyltransferase (EC 2.3.1.50) ; SAC1 protein, S cerevisiae (EC 3.1.3.-) ; Phosphoric Monoester Hydrolases (EC 3.1.3.2)
    Language English
    Publishing date 2018-12-06
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 60-7
    ISSN 1879-2618 ; 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2650 ; 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    ISSN (online) 1879-2618 ; 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2650
    ISSN 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    DOI 10.1016/j.bbalip.2018.11.007
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  4. Article: Genetic and functional interaction of evolutionarily conserved regions of the Prp18 protein and the U5 snRNA.

    Bacíková, Dagmar / Horowitz, David S

    Molecular and cellular biology

    2005  Volume 25, Issue 6, Page(s) 2107–2116

    Abstract: Both the Prp18 protein and the U5 snRNA function in the second step of pre-mRNA splicing. We identified suppressors of mutant prp18 alleles in the gene for the U5 snRNA (SNR7). The suppressors' U5 snRNAs have either a U4-to-A or an A8-to-C mutation in ... ...

    Abstract Both the Prp18 protein and the U5 snRNA function in the second step of pre-mRNA splicing. We identified suppressors of mutant prp18 alleles in the gene for the U5 snRNA (SNR7). The suppressors' U5 snRNAs have either a U4-to-A or an A8-to-C mutation in the evolutionarily invariant loop 1 of U5. Suppression is specific for prp18 alleles that encode proteins with mutations in a highly conserved region of Prp18 which forms an unstructured loop in crystals of Prp18. The snr7 suppressors partly restored the pre-mRNA splicing activity that was lost in the prp18 mutants. The close functional relationship of Prp18 and U5 is emphasized by the finding that two snr7 alleles, U5A and U6A, are dominant synthetic lethal with prp18 alleles. Our results support the idea that Prp18 and the U5 snRNA act in concert during the second step of pre-mRNA splicing and suggest a model in which the conserved loop of Prp18 acts to stabilize the interaction of loop 1 of the U5 snRNA with the splicing intermediates.
    MeSH term(s) Alleles ; Amino Acid Sequence ; Conserved Sequence/genetics ; Conserved Sequence/physiology ; Evolution, Molecular ; Genes, Fungal/genetics ; Genes, Fungal/physiology ; Molecular Sequence Data ; Nuclear Proteins/chemistry ; Nuclear Proteins/genetics ; Nuclear Proteins/physiology ; Nucleic Acid Conformation ; Point Mutation/genetics ; RNA Splicing/genetics ; RNA Splicing/physiology ; RNA, Fungal/genetics ; RNA, Fungal/metabolism ; RNA, Messenger/analysis ; RNA, Messenger/metabolism ; RNA, Small Nuclear/chemistry ; RNA, Small Nuclear/genetics ; RNA, Small Nuclear/physiology ; Ribonucleoprotein, U5 Small Nuclear ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae/physiology ; Saccharomyces cerevisiae Proteins/chemistry ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/physiology ; Suppression, Genetic/genetics ; Suppression, Genetic/physiology
    Chemical Substances Nuclear Proteins ; PRP18 protein, S cerevisiae ; RNA, Fungal ; RNA, Messenger ; RNA, Small Nuclear ; Ribonucleoprotein, U5 Small Nuclear ; Saccharomyces cerevisiae Proteins ; U5 small nuclear RNA
    Language English
    Publishing date 2005-03
    Publishing country United States
    Document type Journal Article ; Research Support, U.S. Gov't, P.H.S.
    ZDB-ID 779397-2
    ISSN 1098-5549 ; 0270-7306
    ISSN (online) 1098-5549
    ISSN 0270-7306
    DOI 10.1128/MCB.25.6.2107-2116.2005
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  5. Article: Mutational analysis identifies two separable roles of the Saccharomyces cerevisiae splicing factor Prp18.

    Bacíková, Dagmar / Horowitz, David S

    RNA (New York, N.Y.)

    2002  Volume 8, Issue 10, Page(s) 1280–1293

    Abstract: Prp18 functions in the second step of pre-mRNA splicing, joining the spliceosome just prior to the transesterification reaction that creates the mature mRNA. Prp18 interacts with Slu7, and the functions of the two proteins are intertwined. Using the X- ... ...

    Abstract Prp18 functions in the second step of pre-mRNA splicing, joining the spliceosome just prior to the transesterification reaction that creates the mature mRNA. Prp18 interacts with Slu7, and the functions of the two proteins are intertwined. Using the X-ray structure of Prp18, we have designed mutants in Prp18 that imply that Prp18 has two distinct roles in splicing. Deletion mutations were used to delineate the surface of Prp18 that interacts with Slu7, and point mutations in Prp18 were used to define amino acids that contact Slu7. Experiments in which Slu7 and mutant Prp18 proteins were expressed at different levels support a model in which interaction between the proteins is needed for stable binding of both proteins to the spliceosome. Mutations in an evolutionarily conserved region show that it is critical for Prp18 function but is not involved in binding Slu7. Alleles with mutations in the conserved region are dominant negative, suggesting that the resulting mutant prp18 proteins make proper contacts with the spliceosome, but fail to carry out a Prp18-specific function. Prp18 thus appears to have two separable roles in splicing, one in stabilizing interaction of Slu7 with the spliceosome, and a second that requires the conserved loop.
    MeSH term(s) Amino Acid Sequence ; Conserved Sequence ; DNA Mutational Analysis ; Gene Expression Regulation, Fungal ; Molecular Sequence Data ; Nuclear Proteins ; Protein Conformation ; RNA Splicing ; RNA Splicing Factors ; Ribonucleoprotein, U5 Small Nuclear ; Ribonucleoproteins, Small Nuclear/genetics ; Ribonucleoproteins, Small Nuclear/metabolism ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae/metabolism ; Saccharomyces cerevisiae Proteins/chemistry ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/metabolism ; Sequence Deletion ; Sequence Homology, Amino Acid
    Chemical Substances Nuclear Proteins ; PRP18 protein, S cerevisiae ; RNA Splicing Factors ; Ribonucleoprotein, U5 Small Nuclear ; Ribonucleoproteins, Small Nuclear ; SLU7 protein, S cerevisiae ; Saccharomyces cerevisiae Proteins
    Language English
    Publishing date 2002-09-24
    Publishing country United States
    Document type Journal Article ; Research Support, U.S. Gov't, Non-P.H.S. ; Research Support, U.S. Gov't, P.H.S.
    ZDB-ID 1241540-6
    ISSN 1355-8382
    ISSN 1355-8382
    DOI 10.1017/s1355838202023099
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  6. Article: The Prp18 protein stabilizes the interaction of both exons with the U5 snRNA during the second step of pre-mRNA splicing.

    Crotti, Luciana B / Bacíková, Dagmar / Horowitz, David S

    Genes & development

    2007  Volume 21, Issue 10, Page(s) 1204–1216

    Abstract: Interaction of the ends of the exons with loop 1 of the U5 snRNA aligns the exons for ligation in the second step of pre-mRNA splicing. To study the effect of Prp18 on the exons' interactions, we analyzed the splicing of pre-mRNAs with random sequences ... ...

    Abstract Interaction of the ends of the exons with loop 1 of the U5 snRNA aligns the exons for ligation in the second step of pre-mRNA splicing. To study the effect of Prp18 on the exons' interactions, we analyzed the splicing of pre-mRNAs with random sequences in the exon bases at the splice junctions. The exon mutations had large effects on splicing in yeast with a Prp18 protein lacking its most conserved region, but not in wild-type yeast. Analysis of splicing kinetics demonstrated that only the second step was affected in vivo and in vitro, showing that Prp18 - and specifically its conserved region - plays a key role in stabilizing the interaction of the exons with the spliceosome at the time of exon joining. Superior exon sequences defined by the prp18 results accelerated the second step of splicing by wild-type spliceosomes with inefficient AT-AC pre-mRNAs, implying that normal exon interactions follow the rules we discerned for prp18 splicing. Our results show that As are preferred at the ends of both exons and support a revised model of the interactions of the exons with U5 in which the exons are arranged in a continuous double helix that facilitates the second reaction.
    MeSH term(s) Base Pairing ; Base Sequence ; DNA Primers ; Exons/genetics ; Molecular Sequence Data ; Mutation/genetics ; Nuclear Proteins/genetics ; RNA Precursors/genetics ; RNA Splicing/genetics ; RNA, Small Nuclear/genetics ; RNA, Small Nuclear/metabolism ; Ribonucleoprotein, U5 Small Nuclear ; Saccharomyces cerevisiae Proteins/genetics ; Spliceosomes/genetics ; Spliceosomes/metabolism ; Yeasts
    Chemical Substances DNA Primers ; Nuclear Proteins ; PRP18 protein, S cerevisiae ; RNA Precursors ; RNA, Small Nuclear ; Ribonucleoprotein, U5 Small Nuclear ; Saccharomyces cerevisiae Proteins ; U5 small nuclear RNA
    Language English
    Publishing date 2007-05-15
    Publishing country United States
    Document type Comparative Study ; Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 806684-x
    ISSN 1549-5477 ; 0890-9369
    ISSN (online) 1549-5477
    ISSN 0890-9369
    DOI 10.1101/gad.1538207
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  7. Article ; Online: Altered nuclear tRNA metabolism in La-deleted Schizosaccharomyces pombe is accompanied by a nutritional stress response involving Atf1p and Pcr1p that is suppressible by Xpo-t/Los1p.

    Cherkasova, Vera / Maury, Luis Lopez / Bacikova, Dagmar / Pridham, Kevin / Bähler, Jürg / Maraia, Richard J

    Molecular biology of the cell

    2011  Volume 23, Issue 3, Page(s) 480–491

    Abstract: Deletion of the sla1(+) gene, which encodes a homologue of the human RNA-binding protein La in Schizosaccharomyces pombe, causes irregularities in tRNA processing, with altered distribution of pre-tRNA intermediates. We show, using mRNA profiling, that ... ...

    Abstract Deletion of the sla1(+) gene, which encodes a homologue of the human RNA-binding protein La in Schizosaccharomyces pombe, causes irregularities in tRNA processing, with altered distribution of pre-tRNA intermediates. We show, using mRNA profiling, that cells lacking sla1(+) have increased mRNAs from amino acid metabolism (AAM) genes and, furthermore, exhibit slow growth in Edinburgh minimal medium. A subset of these AAM genes is under control of the AP-1-like, stress-responsive transcription factors Atf1p and Pcr1p. Although S. pombe growth is resistant to rapamycin, sla1-Δ cells are sensitive, consistent with deficiency of leucine uptake, hypersensitivity to NH4, and genetic links to the target of rapamycin (TOR) pathway. Considering that perturbed intranuclear pre-tRNA metabolism and apparent deficiency in tRNA nuclear export in sla1-Δ cells may trigger the AAM response, we show that modest overexpression of S. pombe los1(+) (also known as Xpo-t), encoding the nuclear exportin for tRNA, suppresses the reduction in pre-tRNA levels, AAM gene up-regulation, and slow growth of sla1-Δ cells. The conclusion that emerges is that sla1(+) regulates AAM mRNA production in S. pombe through its effects on nuclear tRNA processing and probably nuclear export. Finally, the results are discussed in the context of stress response programs in Saccharomyces cerevisiae.
    MeSH term(s) Activating Transcription Factor 1/genetics ; Activating Transcription Factor 1/metabolism ; Activating Transcription Factors/genetics ; Activating Transcription Factors/metabolism ; Cell Nucleus/metabolism ; Gene Expression Regulation, Fungal ; Nuclear Pore Complex Proteins/genetics ; Nuclear Pore Complex Proteins/metabolism ; RNA, Fungal/analysis ; RNA, Fungal/metabolism ; RNA, Messenger/analysis ; RNA, Transfer/metabolism ; RNA-Binding Proteins/genetics ; RNA-Binding Proteins/metabolism ; Schizosaccharomyces/genetics ; Schizosaccharomyces/metabolism ; Schizosaccharomyces pombe Proteins/genetics ; Schizosaccharomyces pombe Proteins/metabolism ; Stress, Physiological
    Chemical Substances Activating Transcription Factor 1 ; Activating Transcription Factors ; Nuclear Pore Complex Proteins ; Pcr1 protein, S pombe ; RNA, Fungal ; RNA, Messenger ; RNA-Binding Proteins ; Schizosaccharomyces pombe Proteins ; Xpot protein, S pombe ; sla1 protein, S pombe ; RNA, Transfer (9014-25-9)
    Language English
    Publishing date 2011-12-07
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Intramural
    ZDB-ID 1098979-1
    ISSN 1939-4586 ; 1059-1524
    ISSN (online) 1939-4586
    ISSN 1059-1524
    DOI 10.1091/mbc.E11-08-0732
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  8. Article ; Online: Topological and functional characterization of the ssSPTs, small activating subunits of serine palmitoyltransferase.

    Harmon, Jeffrey M / Bacikova, Dagmar / Gable, Kenneth / Gupta, Sita D / Han, Gongshe / Sengupta, Nivedita / Somashekarappa, Niranjanakumari / Dunn, Teresa M

    The Journal of biological chemistry

    2013  Volume 288, Issue 14, Page(s) 10144–10153

    Abstract: The topological and functional organization of the two isoforms of the small subunits of human serine palmitoyltransferase (hssSPTs) that activate the catalytic hLCB1/hLCB2 heterodimer was investigated. A variety of experimental approaches placed the N ... ...

    Abstract The topological and functional organization of the two isoforms of the small subunits of human serine palmitoyltransferase (hssSPTs) that activate the catalytic hLCB1/hLCB2 heterodimer was investigated. A variety of experimental approaches placed the N termini of the ssSPTs in the cytosol, their C termini in the lumen, and showed that they contain a single transmembrane domain. Deletion analysis revealed that the ability to activate the heterodimer is contained in a conserved 33-amino acid core domain that has the same membrane topology as the full-length protein. In combination with analysis of isoform chimera and site-directed mutagenesis, a single amino acid residue in this core (Met(25) in ssSPTa and Val(25) in ssSPTb) was identified which confers specificity for palmitoyl- or stearoyl-CoA, respectively, in both yeast and mammalian cells. This same residue also determines which isoform is a better activator of a mutant heterodimer, hLCB1(S331F)/hLCB2a, which has increased basal SPT activity and decreased amino acid substrate selectivity. This suggests that the role of the ssSPTs is to increase SPT activity without compromising substrate specificity. In addition, the observation that the C-terminal domains of ssSPTa and ssSPTb, which are highly conserved within each subfamily but are the most divergent regions between isoform subfamilies, are not required for activation of the heterodimer or for acyl-CoA selectivity suggests that the ssSPTs have additional roles that remain to be discovered.
    MeSH term(s) Amino Acid Sequence ; Amino Acids/chemistry ; Animals ; Cell Membrane/metabolism ; Dimerization ; Enzyme Activation ; Genes, Fungal ; Glycosylation ; Humans ; Lipids/chemistry ; Microsomes/metabolism ; Molecular Sequence Data ; Mutation ; Plasmids/metabolism ; Protein Structure, Tertiary ; Sequence Homology, Amino Acid ; Serine C-Palmitoyltransferase/chemistry ; Serine C-Palmitoyltransferase/physiology ; Sphingolipids/chemistry ; Substrate Specificity
    Chemical Substances Amino Acids ; Lipids ; Sphingolipids ; Serine C-Palmitoyltransferase (EC 2.3.1.50)
    Language English
    Publishing date 2013-02-20
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 2997-x
    ISSN 1083-351X ; 0021-9258
    ISSN (online) 1083-351X
    ISSN 0021-9258
    DOI 10.1074/jbc.M113.451526
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  9. Article: Functional interactions between Prp8, Prp18, Slu7, and U5 snRNA during the second step of pre-mRNA splicing.

    Aronova, Anna / Bacíková, Dagmar / Crotti, Luciana B / Horowitz, David S / Schwer, Beate

    RNA (New York, N.Y.)

    2007  Volume 13, Issue 9, Page(s) 1437–1444

    Abstract: After the second transesterification step of pre-mRNA splicing, the Prp22 helicase catalyzes release of spliced mRNA by disrupting contacts in the spliceosome that likely involve Prp8. Mutations at Arg1753 in Prp8, which suppress helicase-defective prp22 ...

    Abstract After the second transesterification step of pre-mRNA splicing, the Prp22 helicase catalyzes release of spliced mRNA by disrupting contacts in the spliceosome that likely involve Prp8. Mutations at Arg1753 in Prp8, which suppress helicase-defective prp22 mutants, elicit temperature-sensitive growth phenotypes, indicating that interactions in the spliceosome involving Prp8-R1753 might be broken prematurely at 37 degrees C. Here we report that mutations in loop I of the U5 snRNA or in Prp18 can suppress the temperature-sensitive prp8-R1753 mutants. The same gain-of-function PRP18 alleles can also alleviate the growth phenotypes of multiple slu7-ts mutants, indicating a functional link between Prp8 and the second step splicing factors Prp18 and Slu7. These findings, together with the demonstration that changes at Arg1753 in Prp8 impair step 2 of pre-mRNA splicing in vitro, are consistent with a model in which (1) Arg1753 plays a role in stabilizing U5/exon interactions prior to exon joining and (2) these contacts persist until they are broken by the helicase Prp22.
    MeSH term(s) Cells, Cultured ; Esterification ; Exons/genetics ; Humans ; Nuclear Proteins/genetics ; Nuclear Proteins/metabolism ; RNA Precursors/genetics ; RNA Precursors/metabolism ; RNA Splicing/genetics ; RNA Splicing Factors ; RNA, Fungal/chemistry ; RNA, Fungal/metabolism ; RNA, Small Nuclear/genetics ; RNA, Small Nuclear/metabolism ; Ribonucleoprotein, U4-U6 Small Nuclear ; Ribonucleoprotein, U5 Small Nuclear ; Ribonucleoproteins, Small Nuclear/genetics ; Ribonucleoproteins, Small Nuclear/metabolism ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae/growth & development ; Saccharomyces cerevisiae/metabolism ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/metabolism
    Chemical Substances Nuclear Proteins ; PRP18 protein, S cerevisiae ; PRP8 protein, S cerevisiae ; RNA Precursors ; RNA Splicing Factors ; RNA, Fungal ; RNA, Small Nuclear ; Ribonucleoprotein, U4-U6 Small Nuclear ; Ribonucleoprotein, U5 Small Nuclear ; Ribonucleoproteins, Small Nuclear ; SLU7 protein, S cerevisiae ; Saccharomyces cerevisiae Proteins ; U5 small nuclear RNA
    Language English
    Publishing date 2007-09
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 1241540-6
    ISSN 1355-8382
    ISSN 1355-8382
    DOI 10.1261/rna.572807
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 4777: Show issues Location:
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  10. Article ; Online: Comparative whole genome sequencing reveals phenotypic tRNA gene duplication in spontaneous Schizosaccharomyces pombe La mutants.

    Iben, James R / Epstein, Jonathan A / Bayfield, Mark A / Bruinsma, Monique W / Hasson, Samuel / Bacikova, Dagmar / Ahmad, Daniel / Rockwell, Denise / Kittler, Ellen L W / Zapp, Maria L / Maraia, Richard J

    Nucleic acids research

    2011  Volume 39, Issue 11, Page(s) 4728–4742

    Abstract: We used a genetic screen based on tRNA-mediated suppression (TMS) in a Schizosaccharomyces pombe La protein (Sla1p) mutant. Suppressor pre-tRNA(Ser)UCA-C47:6U with a debilitating substitution in its variable arm fails to produce tRNA in a sla1-rrm mutant ...

    Abstract We used a genetic screen based on tRNA-mediated suppression (TMS) in a Schizosaccharomyces pombe La protein (Sla1p) mutant. Suppressor pre-tRNA(Ser)UCA-C47:6U with a debilitating substitution in its variable arm fails to produce tRNA in a sla1-rrm mutant deficient for RNA chaperone-like activity. The parent strain and spontaneous mutant were analyzed using Solexa sequencing. One synonymous single-nucleotide polymorphism (SNP), unrelated to the phenotype, was identified. Further sequence analyses found a duplication of the tRNA(Ser)UCA-C47:6U gene, which was shown to cause the phenotype. Ninety percent of 28 isolated mutants contain duplicated tRNA(Ser)UCA-C47:6U genes. The tRNA gene duplication led to a disproportionately large increase in tRNA(Ser)UCA-C47:6U levels in sla1-rrm but not sla1-null cells, consistent with non-specific low-affinity interactions contributing to the RNA chaperone-like activity of La, similar to other RNA chaperones. Our analysis also identified 24 SNPs between ours and S. pombe 972h- strain yFS101 that was recently sequenced using Solexa. By including mitochondrial (mt) DNA in our analysis, overall coverage increased from 52% to 96%. mtDNA from our strain and yFS101 shared 14 mtSNPs relative to a 'reference' mtDNA, providing the first identification of these S. pombe mtDNA discrepancies. Thus, strain-specific and spontaneous phenotypic mutations can be mapped in S. pombe by Solexa sequencing.
    MeSH term(s) Alleles ; Base Sequence ; Cell Nucleus/genetics ; DNA, Mitochondrial/chemistry ; Gene Duplication ; Genes, Fungal ; Genome, Fungal ; Molecular Sequence Data ; Mutation ; Phenotype ; Polymorphism, Single Nucleotide ; RNA, Transfer, Ser/chemistry ; RNA, Transfer, Ser/genetics ; RNA, Transfer, Ser/metabolism ; RNA-Binding Proteins/genetics ; Schizosaccharomyces/genetics ; Schizosaccharomyces pombe Proteins/genetics ; Sequence Analysis, DNA ; Suppression, Genetic
    Chemical Substances DNA, Mitochondrial ; RNA, Transfer, Ser ; RNA-Binding Proteins ; Schizosaccharomyces pombe Proteins ; sla1 protein, S pombe
    Language English
    Publishing date 2011-02-11
    Publishing country England
    Document type Journal Article
    ZDB-ID 186809-3
    ISSN 1362-4962 ; 1362-4954 ; 0301-5610 ; 0305-1048
    ISSN (online) 1362-4962 ; 1362-4954
    ISSN 0301-5610 ; 0305-1048
    DOI 10.1093/nar/gkr066
    Database MEDical Literature Analysis and Retrieval System OnLINE

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