Marta B. Davidson scite author profile

Recent findings suggest important roles for nuclear organization in gene expression. In contrast, little is known about how nuclear organization contributes to genome stability. Epistasis analysis (E-MAP) using DNA repair factors in yeast indicated a functional relationship between a nuclear pore subcomplex and Slx5/Slx8, a small ubiquitin-like modifier (SUMO)–dependent ubiquitin ligase, which we show physically interact. Real-time imaging and chromatin immunoprecipitation confirmed stable recruitment of damaged DNA to nuclear pores. Relocation required the Nup84 complex and Mec1/Tel1 kinases. Spontaneous gene conversion can be enhanced in a Slx8- and Nup84-dependent manner by tethering donor sites at the nuclear periphery. This suggests that strand breaks are shunted to nuclear pores for a repair pathway controlled by a conserved SUMO-dependent E3 ligase.

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Cohesin Association to Replication Sites Depends on Rad50 and Promotes Fork Restart

Tittel-Elmer

et al. 2012

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SUMMARY The cohesin complex holds together newly-replicated chromatids and is involved in diverse pathways that preserve genome integrity. We show that in budding yeast, cohesin is transiently recruited to active replication origins and it spreads along DNA as forks progress. When DNA synthesis is impeded, cohesin accumulates at replication sites and is critical for the recovery of stalled forks. Cohesin enrichment at replication forks does not depend on γH2A(X) formation, which differs from its loading requirements at DNA double-strand breaks (DSBs). However, cohesin localization is largely reduced in rad50Δ mutants and cells lacking both Mec1 and Tel1 checkpoint kinases. Interestingly, cohesin loading at replication sites depends on the structural features of Rad50 that are important for bridging sister chromatids, including the CXXC hook domain and the length of the coiled-coil extensions. Together, these data reveal a function for cohesin in the maintenance of genome integrity during S phase.

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Endogenous DNA replication stress results in expansion of dNTP pools and a mutator phenotype

Davidson

Katou

Keszthelyi

et al. 2012

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The integrity of the genome depends on diverse pathways that regulate DNA metabolism. Defects in these pathways result in genome instability, a hallmark of cancer. Deletion of ELG1 in budding yeast, when combined with hypomorphic alleles of PCNA results in spontaneous DNA damage during S phase that elicits upregulation of ribonucleotide reductase (RNR) activity. Increased RNR activity leads to a dramatic expansion of deoxyribonucleotide (dNTP) pools in G1 that allows cells to synthesize significant fractions of the genome in the presence of hydroxyurea in the subsequent S phase. Consistent with the recognized correlation between dNTP levels and spontaneous mutation, compromising ELG1 and PCNA results in a significant increase in mutation rates. Deletion of distinct genome stability genes RAD54, RAD55, and TSA1 also results in increased dNTP levels and mutagenesis, suggesting that this is a general phenomenon. Together, our data point to a vicious circle in which mutations in gatekeeper genes give rise to genomic instability during S phase, inducing expansion of the dNTP pool, which in turn results in high levels of spontaneous mutagenesis.

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Subtype-specific and co-occurring genetic alterations in B-cell non-Hodgkin lymphoma

et al. 2021

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B-cell non-Hodgkin’s lymphoma (B-NHL) encompasses multiple clinically and phenotypically distinct subtypes of malignancy with unique molecular etiologies. Common subtypes of B-NHL such as diffuse large B-cell lymphoma (DLBCL) have been comprehensively interrogated at the genomic level. But rarer subtypes such as mantle cell lymphoma (MCL) remain sparsely characterized. Furthermore, multiple B-NHL subtypes have thus far not been comprehensively compared using the same methodology to identify conserved or subtype-specific patterns of genomic alterations. Here, we employed a large targeted hybrid-capture sequencing approach encompassing 380 genes to interrogate the genomic landscapes of 685 B-NHL tumors at high depth; including DLBCL, MCL, follicular lymphoma (FL), and Burkitt lymphoma (BL). We identified conserved hallmarks of B-NHL that were deregulated in the majority of tumor from each subtype, including the frequent genetic deregulation of the ubiquitin proteasome system (UPS). In addition, we identified subtype-specific patterns of genetic alterations, including clusters of co-occurring mutations and DNA copy number alterations. The cumulative burden of mutations within a single cluster were more discriminatory of B-NHL subtypes than individual mutations, implicating likely patterns of genetic cooperation that contribute to disease etiology. We therefore provide the first cross-sectional analysis of mutations and DNA copy number alterations across major B-NHL subtypes and a framework of co-occurring genetic alterations that deregulate genetic hallmarks and likely cooperate in lymphomagenesis.

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Temporal Comorbidity of Mental Disorder and Ulcerative Colitis

Cawthorpe

Davidson

2015

TPJ

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The N- and C-termini of Elg1 contribute to the maintenance of genome stability

Davidson

Brown

2008

DNA Repair

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Subtype-specific and co-occurring genetic alterations in B-cell non-Hodgkin lymphoma

John

Tadros

Bouska

et al. 2019

Preprint

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B-cell non-Hodgkin lymphoma (B-NHL) encompasses multiple clinically and phenotypically distinct subtypes of malignancy with unique molecular etiologies. Common subtypes of B-NHL such as diffuse large B-cell lymphoma (DLBCL) have been comprehensively interrogated at the genomic level, but other less common subtypes such as mantle cell lymphoma (MCL) remain sparsely characterized. Furthermore, multiple B-NHL subtypes have thus far not been comprehensively compared to identify conserved or subtype-specific patterns of genomic alterations. Here, we employed a large targeted hybrid-capture sequencing approach encompassing 380 genes to interrogate the genomic landscapes of 755 B-NHL tumors at high depth; primarily including DLBCL, MCL, follicular lymphoma (FL), and Burkitt lymphoma (BL). We identified conserved hallmarks of B-NHL that were deregulated across major subtypes, such as the frequent genetic deregulation of the ubiquitin proteasome system (UPS). In addition, we identified subtype-specific patterns of genetic alterations, including clusters of co-occurring mutations that are pathognomonic. The cumulative burden of mutations within a single cluster were more significantly discriminatory of B-NHL subtypes than individual mutations, implicating likely patterns of genetic epistasis that contribute to disease etiology. We therefore provide a framework of co-occurring mutations that deregulate genetic hallmarks and likely cooperate in lymphomagenesis of B-NHL subtypes.KEY POINTSGenetic perturbation of the ubiquitin proteasome system is an emerging hallmark of B-cell non-Hodgkin lymphoma (B-NHL).Co-occurring sets of genetic alterations define B-NHL subtypes and likely represent epistatic interactions.

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Application of Stem Cell Therapy in Myelofibrosis

Davidson

Gupta

2021

Hematology/Oncology Clinics of North America

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Marta B. Davidson

Functional Targeting of DNA Damage to a Nuclear Pore-Associated SUMO-Dependent Ubiquitin Ligase

Cohesin Association to Replication Sites Depends on Rad50 and Promotes Fork Restart

Endogenous DNA replication stress results in expansion of dNTP pools and a mutator phenotype

Subtype-specific and co-occurring genetic alterations in B-cell non-Hodgkin lymphoma

Temporal Comorbidity of Mental Disorder and Ulcerative Colitis

The N- and C-termini of Elg1 contribute to the maintenance of genome stability

Subtype-specific and co-occurring genetic alterations in B-cell non-Hodgkin lymphoma

Application of Stem Cell Therapy in Myelofibrosis

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