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1.
Biochemistry ; 61(17): 1723-1734, 2022 09 06.
Artículo en Inglés | MEDLINE | ID: mdl-35998361

RESUMEN

Human polypyrimidine-binding splicing factor (PSF/SFPQ) is a tumor suppressor protein that regulates the gene expression of several proto-oncogenes and binds to the 5'-polyuridine negative-sense template (5'-PUN) of some RNA viruses. The activity of PSF is negatively regulated by long-noncoding RNAs, human metastasis associated in lung adenocarcinoma transcript-1 and murine virus-like 30S transcript-1 (VL30-1). PSF is a 707-amino acid protein that has a DNA-binding domain and two RNA recognition motifs (RRMs). Although the structure of the apo-truncated PSF is known, how PSF recognizes RNA remains elusive. Here, we report the 2.8 Å and 3.5 Å resolution crystal structures of a biologically active truncated construct of PSF (sPSF, consisting of residues 214-598) alone and in a complex with a 30mer fragment of VL30-1 RNA, respectively. The structure of the complex reveals how the 30mer RNA is recognized at two U-specific induced-fit binding pockets, located at the previously unrecognized domain-swapped, inter-subunit RRM1 (of the first subunit)-RRM2 (of the second subunit) interfaces that do not exist in the apo structure. Thus, the sPSF dimer appears to have two conformations in solution: one in a low-affinity state for RNA binding, as seen in the apo-structure, and the other in a high-affinity state for RNA binding, as seen in the sPSF-RNA complex. PSF undergoes an all or nothing transition between having two or no RNA-binding pockets. We predict that the RNA binds with a high degree of positive cooperativity. These structures provide an insight into a new regulatory mechanism that is likely involved in promoting malignancies and other human diseases.


Asunto(s)
ARN Largo no Codificante , Proteínas de Unión al ARN , Animales , Humanos , Ratones , Factor de Empalme Asociado a PTB/genética , Factor de Empalme Asociado a PTB/metabolismo , Empalme del ARN , Factores de Empalme de ARN/genética , Factores de Empalme de ARN/metabolismo , ARN Largo no Codificante/metabolismo , Proteínas de Unión al ARN/metabolismo
2.
Biochemistry ; 51(21): 4343-53, 2012 May 29.
Artículo en Inglés | MEDLINE | ID: mdl-22571765

RESUMEN

Minor groove hydrogen bonding (HB) interactions between DNA polymerases (pols) and N3 of purines or O2 of pyrimidines have been proposed to be essential for DNA synthesis from results obtained using various nucleoside analogues lacking the N3 or O2 contacts that interfered with primer extension. Because there has been no direct structural evidence to support this proposal, we decided to evaluate the contribution of minor groove HB interactions with family B pols. We have used RB69 DNA pol and 3-deaza-2'-deoxyadenosine (3DA), an analogue of 2-deoxyadenosine, which has the same HB pattern opposite T but with N3 replaced with a carbon atom. We then determined pre-steady-state kinetic parameters for the insertion of dAMP opposite dT using primer/templates (P/T)-containing 3DA. We also determined three structures of ternary complexes with 3DA at various positions in the duplex DNA substrate. We found that the incorporation efficiency of dAMP opposite dT decreased 10(2)-10(3)-fold even when only one minor groove HB interaction was missing. Our structures show that the HB pattern and base pair geometry of 3DA/dT is exactly the same as those of dA/dT, which makes 3DA an optimal analogue for probing minor groove HB interactions between a DNA polymerase and a nucleobase. In addition, our structures provide a rationale for the observed 10(2)-10(3)-fold decrease in the rate of nucleotide incorporation. The minor groove HB interactions between position n - 2 of the primer strand and RB69pol fix the rotomer conformations of the K706 and D621 side chains, as well as the position of metal ion A and its coordinating ligands, so that they are in the optinal orientation for DNA synthesis.


Asunto(s)
ADN Polimerasa Dirigida por ADN/química , ADN Polimerasa Dirigida por ADN/metabolismo , ADN/química , ADN/metabolismo , Proteínas Virales/química , Proteínas Virales/metabolismo , Sustitución de Aminoácidos , Bacteriófagos/enzimología , Bacteriófagos/genética , Secuencia de Bases , Sitios de Unión , Replicación del ADN , ADN Polimerasa Dirigida por ADN/genética , Enlace de Hidrógeno , Cinética , Modelos Moleculares , Mutagénesis Sitio-Dirigida , Conformación de Ácido Nucleico , Conformación Proteica , Proteínas Recombinantes/química , Proteínas Recombinantes/genética , Proteínas Recombinantes/metabolismo , Proteínas Virales/genética
3.
Proc Natl Acad Sci U S A ; 106(50): 21109-14, 2009 Dec 15.
Artículo en Inglés | MEDLINE | ID: mdl-19955412

RESUMEN

The catalytic mechanism of DNA polymerases involves multiple steps that precede and follow the transfer of a nucleotide to the 3'-hydroxyl of the growing DNA chain. Here we report a single-molecule approach to monitor the movement of E. coli DNA polymerase I (Klenow fragment) on a DNA template during DNA synthesis with single base-pair resolution. As each nucleotide is incorporated, the single-molecule Förster resonance energy transfer intensity drops in discrete steps to values consistent with single-nucleotide incorporations. Purines and pyrimidines are incorporated with comparable rates. A mismatched primer/template junction exhibits dynamics consistent with the primer moving into the exonuclease domain, which was used to determine the fraction of primer-termini bound to the exonuclease and polymerase sites. Most interestingly, we observe a structural change after the incorporation of a correctly paired nucleotide, consistent with transient movement of the polymerase past the preinsertion site or a conformational change in the polymerase. This may represent a previously unobserved step in the mechanism of DNA synthesis that could be part of the proofreading process.


Asunto(s)
Emparejamiento Base , ADN Polimerasa I/metabolismo , Transferencia Resonante de Energía de Fluorescencia , Nucleótidos/metabolismo , Catálisis , Proteínas de Escherichia coli/genética , Cinética , Métodos , Movimiento (Física) , Moldes Genéticos
4.
Science ; 378(6616): 186-192, 2022 10 14.
Artículo en Inglés | MEDLINE | ID: mdl-36227977

RESUMEN

Studies of the proteome would benefit greatly from methods to directly sequence and digitally quantify proteins and detect posttranslational modifications with single-molecule sensitivity. Here, we demonstrate single-molecule protein sequencing using a dynamic approach in which single peptides are probed in real time by a mixture of dye-labeled N-terminal amino acid recognizers and simultaneously cleaved by aminopeptidases. We annotate amino acids and identify the peptide sequence by measuring fluorescence intensity, lifetime, and binding kinetics on an integrated semiconductor chip. Our results demonstrate the kinetic principles that allow recognizers to identify multiple amino acids in an information-rich manner that enables discrimination of single amino acid substitutions and posttranslational modifications. With further development, we anticipate that this approach will offer a sensitive, scalable, and accessible platform for single-molecule proteomic studies and applications.


Asunto(s)
Proteoma , Proteómica , Aminoácidos/química , Aminopeptidasas , Péptidos/química , Proteómica/métodos , Semiconductores , Análisis de Secuencia de Proteína/métodos
5.
Biochemistry ; 48(23): 5382-8, 2009 Jun 16.
Artículo en Inglés | MEDLINE | ID: mdl-19435285

RESUMEN

Benzo[a]pyrene (B[a]P) is a potent environmental carcinogen that is metabolized into diol epoxides that react with exocyclic amines in DNA. These DNA adducts have been shown to block DNA replication by high-fidelity polymerases and induce both base substitution and frame-shift mutations. To improve our understanding of the molecular mechanism of B[a]P-induced mutagenesis, a fluorescence resonance energy transfer (FRET) method was developed in which the (+)- or (-)-trans-anti-B[a]P-N(2)-dG adducts, positioned in the active site of DNA polymerase I (Klenow fragment), serve as donor fluorophores to an acceptor molecule positioned on the DNA primer strand. FRET was measured for a primer that ended one nucleotide before the adduct position and one that ended across from the adduct and used to estimate the distances between the two fluorophores. These estimates are consistent with prior studies that suggest the adducts are positioned in the minor groove. A comparison of the FRET for the (+)- and (-)-trans-B[a]P adducts in the Klenow active site suggested that the (+)-trans adduct is positioned approximately 2 A farther from the acceptor, consistent with the structural differences observed in duplex DNA where it has been shown that the (+)-trans adduct is oriented toward the 5'-end of the template strand while the (-)-trans adduct lies toward the 3'-end. Surprisingly, the adduct position did not change significantly when the primer was one nucleotide longer. The addition of either a correct (dCTP) or incorrect nucleotides showed only minor differences in FRET, suggesting that the adduct did not undergo a large change in the position within the polymerase active site, as expected if the adduct inhibited the polymerase conformational change.


Asunto(s)
Benzo(a)pireno/química , Aductos de ADN/química , ADN Polimerasa I/química , Transferencia Resonante de Energía de Fluorescencia , Secuencia de Bases , Dominio Catalítico , ADN Polimerasa I/metabolismo , Escherichia coli/enzimología , Polarización de Fluorescencia , Conformación Molecular , Datos de Secuencia Molecular , Nucleótidos/química , Nucleótidos/metabolismo
6.
J Biol Chem ; 279(5): 3643-50, 2004 Jan 30.
Artículo en Inglés | MEDLINE | ID: mdl-14594804

RESUMEN

The binding of plasminogen activator inhibitor-1 (PAI-1) to serine proteinases, such as tissue-type plasminogen activator (tPA) and urokinase-type plasminogen activator (uPA), is mediated by the exosite interactions between the surface-exposed variable region-1, or 37-loop, of the proteinase and the distal reactive center loop (RCL) of PAI-1. Although the contribution of such interactions to the inhibitory activity of PAI-1 has been established, the specific mechanistic steps affected by interactions at the distal RCL remain unknown. We have used protein engineering, stopped-flow fluorimetry, and rapid acid quenching techniques to elucidate the role of exosite interactions in the neutralization of tPA, uPA, and beta-trypsin by PAI-1. Alanine substitutions at the distal P4' (Glu-350) and P5' (Glu-351) residues of PAI-1 reduced the rates of Michaelis complex formation (k(a)) and overall inhibition (k(app)) with tPA by 13.4- and 4.7-fold, respectively, whereas the rate of loop insertion or final acyl-enzyme formation (k(lim)) increased by 3.3-fold. The effects of double mutations on k(a), k(lim), and k(app) were small with uPA and nonexistent with beta-trypsin. We provide the first kinetic evidence that the removal of exosite interactions significantly alters the formation of the noncovalent Michaelis complex, facilitating the release of the primed side of the distal loop from the active-site pocket of tPA and the subsequent insertion of the cleaved reactive center loop into beta-sheet A. Moreover, mutational analysis indicates that the P5' residue contributes more to the mechanism of tPA inhibition, notably by promoting the formation of a final Michaelis complex.


Asunto(s)
Inhibidor 1 de Activador Plasminogénico/fisiología , Inhibidores de Proteasas/farmacología , Alanina/química , Secuencia de Aminoácidos , Animales , Sitios de Unión , Bovinos , Relación Dosis-Respuesta a Droga , Electroforesis en Gel de Poliacrilamida , Cinética , Modelos Químicos , Datos de Secuencia Molecular , Mutación , Unión Proteica , Estructura Secundaria de Proteína , Proteínas Recombinantes/metabolismo , Serpinas/metabolismo , Espectrometría de Fluorescencia , Espectrofotometría , Porcinos , Termodinámica , Tripsina/farmacología
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