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1.
Anal Chem ; 96(42): 17037-17046, 2024 Oct 22.
Artículo en Inglés | MEDLINE | ID: mdl-39434662

RESUMEN

Adeno-associated virus (AAV) vectors have attracted significant attention as the main platform for gene therapy. To ensure the safety and efficacy of AAV vectors when used as gene therapy drugs, it is essential to assess their critical quality attributes (CQAs). These CQAs include the genome packaging status, the size of the genome encapsidated within the AAV capsid, and the stoichiometry of viral proteins (VPs) that constitute the AAV capsids. Analytical methods have been established for evaluating CQAs, such as analytical ultracentrifugation, capillary gel electrophoresis with laser-induced fluorescence detection, and capillary gel electrophoresis using sodium dodecyl sulfate with UV detection. Here, we present a multimass analysis of AAV vectors using orbitrap-based charge detection mass spectrometry (CDMS), a single-ion mass spectrometry. Orbitrap-based CDMS facilitates the quantitative evaluation of the genome packaging status based on the mass distribution of empty and full particles. Additionally, we established a novel method to analyze the encapsidated genome directly without pretreatment, such as protein digestion or heat treatment, and to estimate the stoichiometric variation of VP for the capsid based on the mass distribution constituted by the single peak corresponding to AAV particles. Orbitrap-based CDMS is a distinctive method that allows multiple mass characterizations of AAV vectors with a small sample volume of 20 µL for 1013 cp/mL in a short time (30 min), and it holds the potential to become a new standard method in the assessment of CQAs for AAV vectors.


Asunto(s)
Dependovirus , Vectores Genéticos , Espectrometría de Masas , Dependovirus/genética , Espectrometría de Masas/métodos , Vectores Genéticos/genética , Humanos , Cápside/química , Proteínas de la Cápside/análisis , Proteínas de la Cápside/genética , Proteínas de la Cápside/metabolismo , Células HEK293
2.
Genes Dev ; 30(6): 673-86, 2016 Mar 15.
Artículo en Inglés | MEDLINE | ID: mdl-26966247

RESUMEN

Facilitates chromatin transcription (FACT) plays essential roles in chromatin remodeling during DNA transcription, replication, and repair. Our structural and biochemical studies of human FACT-histone interactions present precise views of nucleosome reorganization, conducted by the FACT-SPT16 (suppressor of Ty 16) Mid domain and its adjacent acidic AID segment. AID accesses the H2B N-terminal basic region exposed by partial unwrapping of the nucleosomal DNA, thereby triggering the invasion of FACT into the nucleosome. The crystal structure of the Mid domain complexed with an H3-H4 tetramer exhibits two separate contact sites; the Mid domain forms a novel intermolecular ß structure with H4. At the other site, the Mid-H2A steric collision on the H2A-docking surface of the H3-H4 tetramer within the nucleosome induces H2A-H2B displacement. This integrated mechanism results in disrupting the H3 αN helix, which is essential for retaining the nucleosomal DNA ends, and hence facilitates DNA stripping from histone.


Asunto(s)
Proteínas de Unión al ADN/química , Proteínas de Unión al ADN/metabolismo , Proteínas del Grupo de Alta Movilidad/química , Proteínas del Grupo de Alta Movilidad/metabolismo , Histonas/química , Histonas/metabolismo , Modelos Moleculares , Nucleosomas/metabolismo , Factores de Elongación Transcripcional/química , Factores de Elongación Transcripcional/metabolismo , Cristalización , Citidina Desaminasa/metabolismo , ADN/metabolismo , Proteínas de Unión al ADN/genética , Proteínas del Grupo de Alta Movilidad/genética , Humanos , Mutación , Unión Proteica , Estructura Cuaternaria de Proteína , Factores de Elongación Transcripcional/genética
3.
Proc Natl Acad Sci U S A ; 117(33): 19661-19663, 2020 08 18.
Artículo en Inglés | MEDLINE | ID: mdl-32747537

RESUMEN

The structural unit of eukaryotic chromatin is a nucleosome, comprising two histone H2A-H2B heterodimers and one histone (H3-H4)2 tetramer, wrapped around by ∼146 bp of DNA. The N-terminal flexible histone tails stick out from the histone core and have extensive posttranslational modifications, causing epigenetic changes of chromatin. Although crystal and cryogenic electron microscopy structures of nucleosomes are available, the flexible tail structures remain elusive. Using NMR, we have examined the dynamics of histone H3 tails in nucleosomes containing unmodified and tetra-acetylated H4 tails. In unmodified nucleosome, the H3 tail adopts a dynamic equilibrium structure between DNA-contact and reduced-contact states. In acetylated H4 nucleosome, however, the H3 tail equilibrium shifts to a mainly DNA-contact state with a minor reduced-contact state. The acetylated H4 tail is dynamically released from its own DNA-contact state to a reduced-contact state, while the H3 tail DNA-contact state becomes major. Notably, H3 K14 in the acetylated H4 nucleosome is much more accessible to acetyltransferase Gcn5 relative to unmodified nucleosome, possibly due to the formation of a favorable H3 tail conformation for Gcn5. In summary, each histone tail adopts a characteristic dynamic state but regulates one other, probably creating a histone tail network even on a nucleosome.


Asunto(s)
Histonas/química , Histonas/metabolismo , Nucleosomas/metabolismo , Acetilación , Secuencias de Aminoácidos , ADN/genética , ADN/metabolismo , Histonas/genética , Humanos , Conformación de Ácido Nucleico , Nucleosomas/genética
4.
Viruses ; 16(4)2024 04 10.
Artículo en Inglés | MEDLINE | ID: mdl-38675928

RESUMEN

The higher-order structure (HOS) is a critical quality attribute of recombinant adeno-associated viruses (rAAVs). Evaluating the HOS of the entire rAAV capsid is challenging because of the flexibility and/or less folded nature of the VP1 unique (VP1u) and VP1/VP2 common regions, which are structural features essential for these regions to exert their functions following viral infection. In this study, hydrogen/deuterium exchange mass spectrometry (HDX-MS) was used for the structural analysis of full and empty rAAV8 capsids. We obtained 486 peptides representing 85% sequence coverage. Surprisingly, the VP1u region showed rapid deuterium uptake even though this region contains the phospholipase A2 domain composed primarily of α-helices. The comparison of deuterium uptake between full and empty capsids showed significant protection from hydrogen/deuterium exchange in the full capsid at the channel structure of the 5-fold symmetry axis. This corresponds to cryo-electron microscopy studies in which the extended densities were observed only in the full capsid. In addition, deuterium uptake was reduced in the VP1u region of the full capsid, suggesting the folding and/or interaction of this region with the encapsidated genome. This study demonstrated HDX-MS as a powerful method for probing the structure of the entire rAAV capsid.


Asunto(s)
Proteínas de la Cápside , Cápside , Dependovirus , Dependovirus/química , Dependovirus/genética , Proteínas de la Cápside/química , Proteínas de la Cápside/metabolismo , Proteínas de la Cápside/genética , Cápside/química , Cápside/metabolismo , Serogrupo , Medición de Intercambio de Deuterio , Espectrometría de Masas de Intercambio de Hidrógeno-Deuterio/métodos , Humanos , Deuterio/química , Espectrometría de Masas , Microscopía por Crioelectrón , Modelos Moleculares
5.
Mol Ther Methods Clin Dev ; 32(3): 101291, 2024 Sep 12.
Artículo en Inglés | MEDLINE | ID: mdl-39070291

RESUMEN

The adeno-associated virus (AAV) vector is one of the most advanced platforms for gene therapy because of its low immunogenicity and non-pathogenicity. The concentrations of both AAV vector empty particles, which do not contain DNA and do not show any efficacy, and AAV vector full particles (FPs), which contain DNA, are important quality attributes. In this study, a dual fluorescence-linked immunosorbent assay (dFLISA), which uses two fluorescent dyes to quantify capsid and genome titers in a single analysis, was established. In dFLISA, capture of AAV particles, detection of capsid proteins, and release and detection of the viral genome are performed in the same well. We demonstrated that the capsid and genomic titers determined by dFLISA were comparable with those of analytical ultracentrifugation. The FP ratios determined by dFLISA were in good agreement with the expected values. In addition, we showed that dFLISA can quantify the genomic and capsid titers of crude samples. dFLISA can be easily modified for measuring other AAV vector serotypes and AAV vectors with different genome lengths. These features make dFLISA a valuable tool for the future development of AAV-based gene therapies.

6.
J Pharm Sci ; 113(7): 1804-1815, 2024 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-38570072

RESUMEN

Adeno-associated viruses (AAVs) are effective vectors for gene therapy. However, AAV drug products are inevitably contaminated with empty particles (EP), which lack a genome, owing to limitations of the purification steps. EP contamination can reduce the transduction efficiency and induce immunogenicity. Therefore, it is important to remove EPs and to determine the ratio of full genome-containing AAV particles to empty particles (F/E ratio). However, most of the existing methods fail to reliably evaluate F/E ratios that are greater than 90 %. In this study, we developed two approaches based on the image analysis of cryo-electron micrographs to determine the F/E ratios of various AAV products. Using our developed convolutional neural network (CNN) and morphological analysis, we successfully calculated the F/E ratios of various AAV products and determined the slight differences in the F/E ratios of highly purified AAV products (purity > 95 %). In addition, the F/E ratios calculated by analyzing more than 1000 AAV particles had good correlations with theoretical F/E ratios. Furthermore, the CNN reliably determined the F/E ratio with a smaller number of AAV particles than morphological analysis. Therefore, combining 100 keV cryo-EM with the developed image analysis methods enables the assessment of a wide range of AAV products.


Asunto(s)
Microscopía por Crioelectrón , Dependovirus , Vectores Genéticos , Procesamiento de Imagen Asistido por Computador , Microscopía por Crioelectrón/métodos , Dependovirus/genética , Procesamiento de Imagen Asistido por Computador/métodos , Humanos , Redes Neurales de la Computación , Virión/ultraestructura , Terapia Genética/métodos , Células HEK293
7.
Mol Ther Methods Clin Dev ; 32(2): 101256, 2024 Jun 13.
Artículo en Inglés | MEDLINE | ID: mdl-38774582

RESUMEN

Glycosylation of biopharmaceuticals can affect their safety and efficacy. Glycans can occur on recombinant adeno-associated viruses (rAAVs) that are used for gene therapy; however, the types of glycans that attach to rAAVs are controversial. Here, we conducted lectin microarray analyses on six rAAV serotype 6 (rAAV6) preparations that were produced differently. We demonstrate that O-glycans considered to be attached to rAAV6 were recognized by Agaricus bisporus agglutinin (ABA) and that N-glycans were detected in rAAV6 purified without affinity chromatography. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis showed that the N-glycans detected in rAAV6 were derived from host cell proteins. A combination of ABA-based fractionation and LC-MS/MS revealed that rAAV6 was O-glycosylated with the mucin-type glycans, O-GalNAc (Tn antigen), and mono- and di-sialylated Galß1-3GalNAc (T antigen) at S156, T162, T194, and T201 in viral protein (VP) 2 and with O-GlcNAc at T242 in VP3. The mucin-type O-glycosylated rAAV6 particles were 0.1%-1% of total particles. Further physicochemical and biological analyses revealed that mucin-type O-glycosylated rAAV6 had a lower ratio of VP1 to VP2/VP3, resulting in a lower transduction efficiency both in vitro and in vivo compared with rAAV6 without mucin-type O-glycans. This report details conclusive evidence of rAAV glycosylation and its impact on rAAV-based therapeutics.

8.
Biophys J ; 104(10): 2222-34, 2013 May 21.
Artículo en Inglés | MEDLINE | ID: mdl-23708362

RESUMEN

The intrinsically disordered region (IDR) of a protein is an important topic in molecular biology. The functional significance of IDRs typically involves gene-regulation processes and is closely related to posttranslational modifications such as phosphorylation. We previously reported that the Drosophila facilitates chromatin transcription (FACT) protein involved in chromatin remodeling contains an acidic ID fragment (AID) whose phosphorylation modulates FACT binding to nucleosomes. Here, we performed dynamic atomic force microscopy and NMR analyses to clarify how the densely phosphorylated AID masks the DNA binding interface of the high-mobility-group domain (HMG). Dynamic atomic force microscopy of the nearly intact FACT revealed that a small globule temporally appears but quickly vanishes within each mobile tail-like image, corresponding to the HMG-containing IDR. The lifespan of the globule increases upon phosphorylation. NMR analysis indicated that phosphorylation induces no ordered structure but increases the number of binding sites in AID to HMG with an adjacent basic segment, thereby retaining the robust electrostatic intramolecular interaction within FACT even in the presence of DNA. These data lead to the conclusion that the inhibitory effect of nucleosome binding is ascribed to the increase in the probability of encounter between HMG and the phosphorylated IDR.


Asunto(s)
Proteínas Portadoras/metabolismo , Proteínas de Drosophila/metabolismo , Nucleosomas/metabolismo , Secuencias de Aminoácidos , Animales , Sitios de Unión , Proteínas Portadoras/química , Proteínas Portadoras/genética , Ensamble y Desensamble de Cromatina , ADN/metabolismo , Drosophila/química , Drosophila/metabolismo , Proteínas de Drosophila/química , Proteínas de Drosophila/genética , Nucleosomas/química , Fosforilación , Estructura Terciaria de Proteína , Electricidad Estática
9.
J Mol Biol ; 435(15): 168189, 2023 08 01.
Artículo en Inglés | MEDLINE | ID: mdl-37380014

RESUMEN

Nucleosome assembly protein 1 (NAP1) binds to histone H2A-H2B heterodimers, mediating their deposition on and eviction from the nucleosome. Human NAP1 (hNAP1) consists of a dimerization core domain and intrinsically disordered C-terminal acidic domain (CTAD), both of which are essential for H2A-H2B binding. Several structures of NAP1 proteins bound to H2A-H2B exhibit binding polymorphisms of the core domain, but the distinct structural roles of the core and CTAD domains remain elusive. Here, we have examined dynamic structures of the full-length hNAP1 dimer bound to one and two H2A-H2B heterodimers by integrative methods. Nuclear magnetic resonance (NMR) spectroscopy of full-length hNAP1 showed CTAD binding to H2A-H2B. Atomic force microscopy revealed that hNAP1 forms oligomers of tandem repeated dimers; therefore, we generated a stable dimeric hNAP1 mutant exhibiting the same H2A-H2B binding affinity as wild-type hNAP1. Size exclusion chromatography (SEC), multi-angle light scattering (MALS) and small angle X-ray scattering (SAXS), followed by modelling and molecular dynamics simulations, have been used to reveal the stepwise dynamic complex structures of hNAP1 binding to one and two H2A-H2B heterodimers. The first H2A-H2B dimer binds mainly to the core domain of hNAP1, while the second H2A-H2B binds dynamically to both CTADs. Based on our findings, we present a model of the eviction of H2A-H2B from nucleosomes by NAP1.


Asunto(s)
Histonas , Proteína 1 de Ensamblaje de Nucleosomas , Humanos , Histonas/metabolismo , Proteína 1 de Ensamblaje de Nucleosomas/genética , Proteína 1 de Ensamblaje de Nucleosomas/química , Proteína 1 de Ensamblaje de Nucleosomas/metabolismo , Dispersión del Ángulo Pequeño , Difracción de Rayos X , Nucleosomas , Unión Proteica
10.
J Mol Biol ; 435(4): 167936, 2023 02 28.
Artículo en Inglés | MEDLINE | ID: mdl-36610636

RESUMEN

Polycomb repressive complex 1 (PRC1) and PRC2 are responsible for epigenetic gene regulation. PRC1 ubiquitinates histone H2A (H2Aub), which subsequently promotes PRC2 to introduce the H3 lysine 27 tri-methyl (H3K27me3) repressive chromatin mark. Although this mechanism provides a link between the two key transcriptional repressors, PRC1 and PRC2, it is unknown how histone-tail dynamics contribute to this process. Here, we have examined the effect of H2A ubiquitination and linker-DNA on H3-tail dynamics and H3K27 methylation by PRC2. In naïve nucleosomes, the H3-tail dynamically contacts linker DNA in addition to core DNA, and the linker-DNA is as important for H3K27 methylation as H2A ubiquitination. H2A ubiquitination alters contacts between the H3-tail and DNA to improve the methyltransferase activity of the PRC2-AEBP2-JARID2 complex. Collectively, our data support a model in which H2A ubiquitination by PRC1 synergizes with linker-DNA to hold H3 histone tails poised for their methylation by PRC2-AEBP2-JARID2.


Asunto(s)
Histonas , Complejo Represivo Polycomb 1 , Complejo Represivo Polycomb 2 , Ubiquitinación , ADN/química , Histonas/química , Histonas/genética , Metilación , Complejo Represivo Polycomb 1/química , Complejo Represivo Polycomb 1/genética , Complejo Represivo Polycomb 2/química , Complejo Represivo Polycomb 2/genética
11.
Commun Biol ; 5(1): 814, 2022 08 13.
Artículo en Inglés | MEDLINE | ID: mdl-35963897

RESUMEN

Gene expression is regulated by the modification and accessibility of histone tails within nucleosomes. The histone chaperone FACT (facilitate chromatin transcription), comprising SPT16 and SSRP1, interacts with nucleosomes through partial replacement of DNA with the phosphorylated acidic intrinsically disordered (pAID) segment of SPT16; pAID induces an accessible conformation of the proximal histone H3 N-terminal tail (N-tail) in the unwrapped nucleosome with FACT. Here, we use NMR to probe the histone H2A and H2B tails in the unwrapped nucleosome. Consequently, both the H2A and H2B N-tails on the pAID-proximal side bind to pAID with robust interactions, which are important for nucleosome assembly with FACT. Furthermore, the conformations of these N-tails on the distal DNA-contact site are altered from those in the canonical nucleosome. Our findings highlight that FACT both proximally and distally regulates the conformations of the H2A and H2B N-tails in the asymmetrically unwrapped nucleosome.


Asunto(s)
Histonas , Nucleosomas , Cromatina , ADN/metabolismo , Histonas/metabolismo , Conformación Molecular
12.
Biophys Rev ; 14(6): 1449-1472, 2022 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-36659983

RESUMEN

Advances in structural analysis by cryogenic electron microscopy (cryo-EM) and X-ray crystallography have revealed the tertiary structures of various chromatin-related proteins, including transcription factors, RNA polymerases, nucleosomes, and histone chaperones; however, the dynamic structures of intrinsically disordered regions (IDRs) in these proteins remain elusive. Recent studies using nuclear magnetic resonance (NMR), together with molecular dynamics (MD) simulations, are beginning to reveal dynamic structures of the general transcription factor TFIIH complexed with target proteins including the general transcription factor TFIIE, the tumor suppressor p53, the cell cycle protein DP1, the DNA repair factors XPC and UVSSA, and three RNA polymerases, in addition to the dynamics of histone tails in nucleosomes and histone chaperones. In complexes of TFIIH, the PH domain of the p62 subunit binds to an acidic string formed by the IDR in TFIIE, p53, XPC, UVSSA, DP1, and the RPB6 subunit of three RNA polymerases by a common interaction mode, namely extended string-like binding of the IDR on the positively charged surface of the PH domain. In the nucleosome, the dynamic conformations of the N-tails of histones H2A and H2B are correlated, while the dynamic conformations of the N-tails of H3 and H4 form a histone tail network dependent on their modifications and linker DNA. The acidic IDRs of the histone chaperones of FACT and NAP1 play important roles in regulating the accessibility to histone proteins in the nucleosome.

13.
Curr Opin Struct Biol ; 75: 102436, 2022 08.
Artículo en Inglés | MEDLINE | ID: mdl-35863166

RESUMEN

The structural unit of eukaryotic chromatin is a nucleosome, comprising two histone H2A/H2B heterodimers and one histone (H3/H4)2 tetramer, wrapped around by ∼146-bp core DNA and linker DNA. Flexible histone tails sticking out from the core undergo posttranslational modifications that are responsible for various epigenetic functions. Recently, the functional dynamics of histone tails and their modulation within the nucleosome and nucleosomal complexes have been investigated by integrating NMR, molecular dynamics simulations, and cryo-electron microscopy approaches. In particular, recent NMR studies have revealed correlations in the structures of histone N-terminal tails between H2A and H2B, as well as between H3 and H4 depending on linker DNA, suggesting that histone tail networks exist even within the nucleosome.


Asunto(s)
Histonas , Nucleosomas , Cromatina , Microscopía por Crioelectrón , ADN/genética , Histonas/química
14.
15.
iScience ; 25(3): 103937, 2022 Mar 18.
Artículo en Inglés | MEDLINE | ID: mdl-35265811

RESUMEN

The nucleosome core particle (NCP) comprises a histone octamer, wrapped around by ∼146-bp DNA, while the nucleosome additionally contains linker DNA. We previously showed that, in the nucleosome, H4 N-tail acetylation enhances H3 N-tail acetylation by altering their mutual dynamics. Here, we have evaluated the roles of linker DNA and/or linker histone on H3 N-tail dynamics and acetylation by using the NCP and the chromatosome (i.e., linker histone H1.4-bound nucleosome). In contrast to the nucleosome, H3 N-tail acetylation and dynamics are greatly suppressed in the NCP regardless of H4 N-tail acetylation because the H3 N-tail is strongly bound between two DNA gyres. In the chromatosome, the asymmetric H3 N-tail adopts two conformations: one contacts two DNA gyres, as in the NCP; and one contacts linker DNA, as in the nucleosome. However, the rate of H3 N-tail acetylation is similar in the chromatosome and nucleosome. Thus, linker DNA and linker histone both regulate H3-tail dynamics and acetylation.

16.
J Mol Biol ; 433(15): 167110, 2021 07 23.
Artículo en Inglés | MEDLINE | ID: mdl-34153285

RESUMEN

The nucleosome comprises two histone dimers of H2A-H2B and one histone tetramer of (H3-H4)2, wrapped around by ~145 bp of DNA. Detailed core structures of nucleosomes have been established by X-ray and cryo-EM, however, histone tails have not been visualized. Here, we have examined the dynamic structures of the H2A and H2B tails in 145-bp and 193-bp nucleosomes using NMR, and have compared them with those of the H2A and H2B tail peptides unbound and bound to DNA. Whereas the H2A C-tail adopts a single but different conformation in both nucleosomes, the N-tails of H2A and H2B adopt two distinct conformations in each nucleosome. To clarify these conformations, we conducted molecular dynamics (MD) simulations, which suggest that the H2A N-tail can locate stably in either the major or minor grooves of nucleosomal DNA. While the H2B N-tail, which sticks out between two DNA gyres in the nucleosome, was considered to adopt two different orientations, one toward the entry/exit side and one on the opposite side. Then, the H2A N-tail minor groove conformation was obtained in the H2B opposite side and the H2B N-tail interacts with DNA similarly in both sides, though more varied conformations are obtained in the entry/exit side. Collectively, the NMR findings and MD simulations suggest that the minor groove conformer of the H2A N-tail is likely to contact DNA more strongly than the major groove conformer, and the H2A N-tail reduces contact with DNA in the major groove when the H2B N-tail is located in the entry/exit side.


Asunto(s)
ADN/metabolismo , Histonas/química , Histonas/metabolismo , Microscopía por Crioelectrón , Cristalografía por Rayos X , ADN/genética , Humanos , Simulación de Dinámica Molecular , Nucleosomas/metabolismo , Conformación Proteica
18.
iScience ; 23(10): 101641, 2020 Oct 23.
Artículo en Inglés | MEDLINE | ID: mdl-33103079

RESUMEN

The FACT (facilitates chromatin transcription) complex, comprising SPT16 and SSRP1, conducts structural alterations during nucleosome unwrapping. Our previous cryoelectron microscopic (cryo-EM) analysis revealed the first intermediate structure of an unwrapped nucleosome with human FACT, in which 112-bp DNA and the phosphorylated intrinsically disordered (pAID) segment of SPT16 jointly wrapped around the histone core instead of 145-bp DNA. Using NMR, here we clarified that the histone H3 N-terminal tails, unobserved in the cryo-EM structure, adopt two different conformations reflecting their asymmetric locations at entry/exit sites: one corresponds to the original nucleosome site buried in two DNA gyres (DNA side), whereas the other, comprising pAID and DNA, is more exposed to the solvent (pAID side). NMR real-time monitoring showed that H3 acetylation is faster on the pAID side than on the DNA side. Our findings highlight that accessible conformations of H3 tails are created by the replacement of nucleosomal DNA with pAID.

19.
Sci Rep ; 9(1): 10183, 2019 07 15.
Artículo en Inglés | MEDLINE | ID: mdl-31308435

RESUMEN

Facilitates chromatin transcription (FACT) is a histone chaperone, which accomplishes both nucleosome assembly and disassembly. Our combined cryo-electron microscopy (EM) and native mass spectrometry (MS) studies revealed novel key steps of nucleosome reorganization conducted by a Mid domain and its adjacent acidic AID segment of human FACT. We determined three cryo-EM structures of respective octasomes complexed with the Mid-AID and AID regions, and a hexasome alone. We discovered extensive contacts between a FACT region and histones H2A, H2B, and H3, suggesting that FACT is competent to direct functional replacement of a nucleosomal DNA end by its phosphorylated AID segment (pAID). Mutational assays revealed that the aromatic and phosphorylated residues within pAID are essential for octasome binding. The EM structure of the hexasome, generated by the addition of Mid-pAID or pAID, indicated that the dissociation of H2A-H2B dimer causes significant alteration from the canonical path of the nucleosomal DNA.


Asunto(s)
Ensamble y Desensamble de Cromatina/fisiología , Proteínas de Unión al ADN/metabolismo , Proteínas del Grupo de Alta Movilidad/metabolismo , Nucleosomas/metabolismo , Factores de Elongación Transcripcional/metabolismo , Cromatina/química , Microscopía por Crioelectrón/métodos , ADN/química , Proteínas de Unión al ADN/fisiología , Proteínas del Grupo de Alta Movilidad/fisiología , Histonas/metabolismo , Histonas/fisiología , Humanos , Espectrometría de Masas/métodos , Modelos Moleculares , Chaperonas Moleculares/metabolismo , Nucleosomas/fisiología , Unión Proteica/fisiología , Factores de Elongación Transcripcional/fisiología
20.
Chemphyschem ; 9(13): 1859-66, 2008 Sep 15.
Artículo en Inglés | MEDLINE | ID: mdl-18698566

RESUMEN

Intrinsically disordered (ID) regions of proteins are recognized to be involved in biological processes such as transcription, translation, and cellular signal transduction. Despite the important roles of ID regions, effective methods to observe these thin and flexible structures directly were not available. Herein, we use high-speed atomic force microscopy (AFM) to observe the heterodimeric FACT (facilitates chromatin transcription) protein, which is predicted to have large ID regions in each subunit. Successive AFM images of FACT on a mica surface, captured at rates of 5-17 frames per second, clearly reveal two distinct tail-like segments that protrude from the main body of FACT and fluctuate in position. Using deletion mutants of FACT, we identify these tail segments as the two major ID regions predicted from the amino acid sequences. Their mechanical properties estimated from the AFM images suggest that they have more relaxed structures than random coils. These observations demonstrate that this state-of-the-art microscopy method can be used to characterize unstructured protein segments that are difficult to visualize with other experimental techniques.


Asunto(s)
Microscopía de Fuerza Atómica/métodos , Proteínas/ultraestructura , Eliminación de Gen , Microscopía Electrónica de Transmisión , Mutación/genética , Proteínas/genética , Factores de Tiempo
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