Cargando…

Formation of a large, complex domain of histone hyperacetylation at human 14q32.1 requires the serpin locus control region

The human serine protease inhibitor (serpin) gene cluster at 14q32.1 is a useful model system to study cell-type-specific gene expression and chromatin structure. Activation of the serpin locus can be induced in vitro by transferring human chromosome 14 from non-expressing to expressing cells. Serpi...

Descripción completa

Detalles Bibliográficos
Autores principales:	Baxter, Euan W., Cummings, W. Jason, Fournier, R. E. K.
Formato:	Texto
Lenguaje:	English
Publicado:	Oxford University Press 2005
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1143699/ https://www.ncbi.nlm.nih.gov/pubmed/15942032 http://dx.doi.org/10.1093/nar/gki645

Ejemplares similares

Synthetic hyperacetylation of nucleosomal histones
por: Kajino, Hidetoshi, et al.
Publicado: (2020)

Genome-wide association study identifies locus at chromosome 2q32.1 associated with syncope and collapse
por: Hadji-Turdeghal, Katra, et al.
Publicado: (2020)

Reviewers BJCVS 32.1
Publicado: (2017)

Structural variations in a non-coding region at 1q32.1 are responsible for the NYS7 locus in two large families
por: Sun, Wenmin, et al.
Publicado: (2020)

Lacosamide at therapeutic concentrations induces histone hyperacetylation in vitro
por: Granit, Avital, et al.
Publicado: (2018)

Lead Induces Apoptosis and Histone Hyperacetylation in Rat Cardiovascular Tissues
por: Xu, Li-Hui, et al.
Publicado: (2015)

Histone hyperacetylation disrupts core gene regulatory architecture in rhabdomyosarcoma
por: Gryder, Berkley E., et al.
Publicado: (2019)

A novel chromosome 2q24.3‐q32.1 microdeletion in a fetus with multiple malformations
por: Zhu, Mianmian, et al.
Publicado: (2022)

Genome-wide association analysis in East Asians identifies breast cancer susceptibility loci at 1q32.1, 5q14.3 and 15q26.1
por: Cai, Qiuyin, et al.
Publicado: (2014)

MicroRNAs at the human 14q32 locus have prognostic significance in osteosarcoma
por: Sarver, Aaron L, et al.
Publicado: (2013)

Cytogenomic characterization of 1q43q44 deletion associated with 4q32.1q35.2 duplication and phenotype correlation
por: Mohamed, A. M., et al.
Publicado: (2018)

Sodium butyrate induces histone hyperacetylation and differentiation of murine embryonal carcinoma cells
Publicado: (1984)

Genes Are Often Sheltered from the Global Histone Hyperacetylation Induced by HDAC Inhibitors
por: Halsall, John, et al.
Publicado: (2012)

Genome-Wide Maps of Mononucleosomes and Dinucleosomes Containing Hyperacetylated Histones of Aspergillus fumigatus
por: Nishida, Hiromi, et al.
Publicado: (2010)

Histone Hyperacetylation as a Response to Global Brain Ischemia Associated with Hyperhomocysteinemia in Rats
por: Tóthová, Barbara, et al.
Publicado: (2018)

Synthesis and Characterization of an Analgesic Potential Conotoxin Lv32.1
por: Liu, Siyi, et al.
Publicado: (2022)

A new mosaic der(18)t(1;18)(q32.1;q21.3) with developmental delay and facial dysmorphism
por: Choi, Young-Jin, et al.
Publicado: (2016)

NUT Is a Driver of p300-Mediated Histone Hyperacetylation: From Spermatogenesis to Cancer
por: Rousseaux, Sophie, et al.
Publicado: (2022)

32.1 MECHANISMS OF ABNORMAL POSTTRANSLATIONAL PROTEIN PROCESSING IN SCHIZOPHRENIA BRAIN
por: Meador-Woodruff, James
Publicado: (2018)

Imprinting defects at human 14q32 locus alters gene expression and is associated with the pathobiology of osteosarcoma
por: Shu, Jingmin, et al.
Publicado: (2016)

De novo balanced reciprocal translocation t(2;3)(q31;q27) in a fetus conceived using PGD in a t(2;14)(q35;q32.1) balanced reciprocal translocation carrier mother
por: Kim, Ji Won, et al.
Publicado: (2017)

De Novo Interstitial Microdeletion at 1q32.1 in a 10-Year-Old Boy with Developmental Delay and Dysmorphism
por: Carter, Jennifer, et al.
Publicado: (2016)

ChIP on SNP-chip for genome-wide analysis of human histone H4 hyperacetylation
por: McCann, Jennifer A, et al.
Publicado: (2007)

Reactivation of a silenced H19 gene in human rhabdomyosarcoma by demethylation of DNA but not by histone hyperacetylation
por: Lynch, Catherine A, et al.
Publicado: (2002)

Orthodontic Compression Enhances Macrophage M2 Polarization via Histone H3 Hyperacetylation
por: Wang, Yao, et al.
Publicado: (2023)

The replacement histone H2A.Z in a hyperacetylated form is a feature of active genes in the chicken
por: Bruce, Kimberley, et al.
Publicado: (2005)

A 7q31.33q32.1 microdeletion including LRRC4 and GRM8 is associated with severe intellectual disability and characteristics of autism
por: Sangu, Noriko, et al.
Publicado: (2017)

Three new pancreatic cancer susceptibility signals identified on chromosomes 1q32.1, 5p15.33 and 8q24.21
por: Zhang, Mingfeng, et al.
Publicado: (2016)

A case of germline mosaicism for a 7q32.1q33 deletion in a sperm donor: consequences on pregnancy follow-up and recommendations
por: Chalas, Celine, et al.
Publicado: (2020)

Histone hyperacetylation mediates enhanced IL‐1β production in LPS/IFN‐γ‐stimulated macrophages
por: Dong, Zhen, et al.
Publicado: (2020)

Intermittent Fasting Sustainably Improves Glucose Tolerance in Normal Weight Male Mice Through Histone Hyperacetylation
por: Endo, Sho, et al.
Publicado: (2023)

S32.1 H5N1 and SARS — What have we learned?
Publicado: (2005)

32.1 The Impact of COVID-19 on the Mental Health of Black Youth and Available Resources
por: Onyejiaka, Chioma A.
Publicado: (2022)

PGE2 induces interleukin-8 derepression in human astrocytoma through coordinated DNA demethylation and histone hyperacetylation
por: Venza, Isabella, et al.
Publicado: (2012)

Testicular histone hyperacetylation in mice by valproic acid administration affects the next generation by changes in sperm DNA methylation
por: Sakai, Kazuya, et al.
Publicado: (2023)

Depletion of Histone Demethylase Jarid1A Resulting in Histone Hyperacetylation and Radiation Sensitivity Does Not Affect DNA Double-Strand Break Repair
por: Penterling, Corina, et al.
Publicado: (2016)

Fungal-induced protein hyperacetylation in maize identified by acetylome profiling
por: Walley, Justin W., et al.
Publicado: (2018)

伴t(3;21)(q26;q22)髓系肿瘤临床分析
Publicado: (2019)

Egr-1 and RNA POL II facilitate glioma cell GDNF transcription induced by histone hyperacetylation in promoter II
por: Zhang, Bao-Le, et al.
Publicado: (2017)

8,14-Secogammacera-7,14(27)-diene-3,21-dione–8,14-secogammacera-7,14-diene-3,21-dione (1.5/0.5) from the bark of Lansium domesticum Corr.
por: Tjokronegero, Roekmi-ati, et al.
Publicado: (2009)

Cannot write session to /tmp/vufind_sessions/sess_qngsd6ddfvdj5dmk7umpvpjk19