Your search keyword '"Glassner, Brian J."' showing total 25 results

1. Genome-scale functional genomics identify genes preferentially essential for multiple myeloma cells compared to other neoplasias

Author

de Matos Simoes, Ricardo, Shirasaki, Ryosuke, Downey-Kopyscinski, Sondra L., Matthews, Geoffrey M., Barwick, Benjamin G., Gupta, Vikas A., Dupéré-Richer, Daphné, Yamano, Shizuka, Hu, Yiguo, Sheffer, Michal, Dhimolea, Eugen, Dashevsky, Olga, Gandolfi, Sara, Ishiguro, Kazuya, Meyers, Robin M., Bryan, Jordan G., Dharia, Neekesh V., Hengeveld, Paul J., Brüggenthies, Johanna B., Tang, Huihui, Aguirre, Andrew J., Sievers, Quinlan L., Ebert, Benjamin L., Glassner, Brian J., Ott, Christopher J., Bradner, James E., Kwiatkowski, Nicholas P., Auclair, Daniel, Levy, Joan, Keats, Jonathan J., Groen, Richard W. J., Gray, Nathanael S., Culhane, Aedin C., McFarland, James M., Dempster, Joshua M., Licht, Jonathan D., Boise, Lawrence H., Hahn, William C., Vazquez, Francisca, Tsherniak, Aviad, and Mitsiades, Constantine S.

Published

2023

2. An Embryonic Diapause-like Adaptation with Suppressed Myc Activity Enables Tumor Treatment Persistence

Author

Dhimolea, Eugen, de Matos Simoes, Ricardo, Kansara, Dhvanir, Al’Khafaji, Aziz, Bouyssou, Juliette, Weng, Xiang, Sharma, Shruti, Raja, Joseline, Awate, Pallavi, Shirasaki, Ryosuke, Tang, Huihui, Glassner, Brian J., Liu, Zhiyi, Gao, Dong, Bryan, Jordan, Bender, Samantha, Roth, Jennifer, Scheffer, Michal, Jeselsohn, Rinath, Gray, Nathanael S., Georgakoudi, Irene, Vazquez, Francisca, Tsherniak, Aviad, Chen, Yu, Welm, Alana, Duy, Cihangir, Melnick, Ari, Bartholdy, Boris, Brown, Myles, Culhane, Aedin C., and Mitsiades, Constantine S.

Published

2021

3. Functional Genomics Identify Distinct and Overlapping Genes Mediating Resistance to Different Classes of Heterobifunctional Degraders of Oncoproteins

Author

Shirasaki, Ryosuke, Matthews, Geoffrey M., Gandolfi, Sara, de Matos Simoes, Ricardo, Buckley, Dennis L., Raja Vora, Joseline, Sievers, Quinlan L., Brüggenthies, Johanna B., Dashevsky, Olga, Poarch, Haley, Tang, Huihui, Bariteau, Megan A., Sheffer, Michal, Hu, Yiguo, Downey-Kopyscinski, Sondra L., Hengeveld, Paul J., Glassner, Brian J., Dhimolea, Eugen, Ott, Christopher J., Zhang, Tinghu, Kwiatkowski, Nicholas P., Laubach, Jacob P., Schlossman, Robert L., Richardson, Paul G., Culhane, Aedin C., Groen, Richard W.J., Fischer, Eric S., Vazquez, Francisca, Tsherniak, Aviad, Hahn, William C., Levy, Joan, Auclair, Daniel, Licht, Jonathan D., Keats, Jonathan J., Boise, Lawrence H., Ebert, Benjamin L., Bradner, James E., Gray, Nathanael S., and Mitsiades, Constantine S.

Published

2021

4. Generation of a Strong Mutator Phenotype in Yeast by Imbalanced Base Excision Repair

Author

Glassner, Brian J., Rasmussen, Lene Juel, Najarian, Mark T., Posnick, Lauren M., and Samson, Leona D.

Published

1998

5. Increasing DNA Repair Methyltransferase Levels Via Bone Marrow Stem Cell Transduction Rescues Mice from the Toxic Effects of 1,3-bis(2-chloroethyl)-1-nitrosourea, a Chemotherapeutic Alkylating Agent

Author

Maze, Rodney, Carney, James P., Kelley, Mark R., Glassner, Brian J., Williams, David A., and Samson, Leona

Published

1996

6. Synergistic Interactions between RAD5, RAD16 and RAD54, Three Partially Homologous Yeast DNA Repair Genes Each in a Different Repair Pathway

Author

Glassner, Brian J. and Mortimer, Robert K.

Published

1994

7. Targeting Mutant KRAS with Novel Mutant-Specific Pharmacological Inhibitors: Activity Against Myeloma and Other Lymphoid Malignant Cells and Molecular Mechanisms of Resistance

Author

Steinbrunn, Torsten, Shirasaki, Ryosuke, Dashevsky, Olga, Tang, Huihui, Yamano, Shizuka, Mizuno, Rin, Sugihara, Takeru, Teoh, Phaik Ju, Leypoldt, Lisa B, Kaji, Mariko, Sorrell, Jeffrey, Glassner, Brian J, De Matos Simoes, Ricardo, Christensen, James, and Mitsiades, Constantine S

Published

2023

8. Quantitative imaging of cells with multi-isotope imaging mass spectrometry (MIMS)—Nanoautography with stable isotope tracers

Author

McMahon, Greg, Glassner, Brian J., and Lechene, Claude P.

Published

2006

9. Detection and frequency estimation of rare variants in pools of genomic DNA from large populations using mutational spectrometry

Author

Li-Sucholeiki, Xiao-Cheng, Tomita-Mitchell, Aoy, Arnold, Kevin, Glassner, Brian J., Thompson, Terri, Murthy, Jaitra V., Berk, Lori, Lange, Craig, Leong-Morgenthaler, Phaik-Mooi, MacDougall, Damien, Munro, John, Cannon, Donald, Mistry, Trupti, Miller, Art, Deka, Chiranjit, Karger, Barry, Gillespie, Kathleen M., Ekstrøm, Per O., Todd, John A., and Thilly, William G.

Published

2005

10. Increasing DNA repair methyltransferase levels via bone barrow stem cell transduction rescues mice from the toxic effects of 1,3-bis(2-chloroethyl)-1-nitrosourea, a chemotherapeutic alkylating agent

Author

Maze, Rodney, Carney, James P., Kelley, Mark R., Glassner, Brian J., Williams, David A., and Samson, Leona

Subjects

Methyltransferases -- Research, DNA repair -- Research, Transduction -- Research, Chemotherapy -- Research, Science and technology

Abstract

A transduction protocol targeting murine bone marrow stem cells is proposed for the expression of the human O6-methylguanine DNA repair protein. The protocol has proven to be effective in providing considerable resistance to treatments with the chemotherapeutic alkylating agent 1,3-bis(2-chloroethyl)-1-nitrosourea. It has potential in protecting cancer patients from chloroethylnitrosourea chemotherapy-related toxicity.

Published

1996

11. Combinatorial CRISPR-knockout identifies interactions between key genes and regulatory pathways in myeloma

Author

Downey-Kopyscinski, Sondra, primary, de Matos Simoes, Ricardo, additional, Shirasaki, Ryosuke, additional, Dashevsky, Olga, additional, Gandolfi, Sara, additional, Glassner, Brian J., additional, Bariteau, Megan, additional, Borah, Minasri, additional, Groen, Richard, additional, Doench, John, additional, and Mitsiades, Constantine, additional

Published

2019

12. CRISPR studies identify genes preferentially essential for myeloma cells vs. other neoplasias: implications for future therapies selective against MM

Author

Shirasaki, Ryosuke, primary, de Matos Simoes, Ricardo, additional, Downey-Kopyscinski, Sondra, additional, Matthews, Geoffrey, additional, Hu, Yiguo, additional, Sheffer, Michal, additional, Dhimolea, Eugen, additional, Dashevsky, Olga, additional, Gandolfi, Sara, additional, Hengeveld, Paul, additional, Dempster, Joshua, additional, Meyers, Robin, additional, Bryan, Jordan, additional, Dharia, Neekesh, additional, McFarland, James, additional, Sarkar, Subhashis, additional, Bruggenthies, Johanna, additional, Tang, Huihui, additional, Bariteau, Megan, additional, Aguirre, Andrew, additional, Borah, Minasri, additional, Sievers, Quinlan, additional, Ebert, Benjamin, additional, Raja, Joseline, additional, Glassner, Brian J., additional, Ott, Christopher, additional, Bradner, James, additional, Kwiatkowski, Nicholas, additional, Auclair, Daniel, additional, Levy, Joan, additional, Poarch, Haley, additional, Zhang, Tinghu, additional, Laubach, Jacob, additional, Buckley, Dennis, additional, Schlossman, Robert, additional, Groen, Richard, additional, Fischer, Eric, additional, Richardson, Paul G., additional, Keats, Jonathan, additional, Boise, Lawrence, additional, Licht, Jonathan, additional, Culhane, Aedin, additional, Gray, Nathanael, additional, Hahn, William, additional, Vazquez, Francisca, additional, Tsherniak, Aviad, additional, and Mitsiades, Constantine, additional

Published

2019

13. CRISPR-based functional genomics landscape of genes recurrently mutated in MM

Author

de Matos Simoes, Ricardo, primary, Shirasaki, Ryosuke, additional, Tang, Huihui, additional, Sheffer, Michal, additional, Dashevsky, Olga, additional, Downey-Kopyscinski, Sondra, additional, Dhimolea, Eugen, additional, Bariteau, Megan, additional, Licht, Jonathan, additional, Glassner, Brian J., additional, Levy, Joan, additional, Auclair, Daniel, additional, Vazquez, Francisca, additional, Tsherniak, Aviad, additional, Hahn, William, additional, Culhane, Aedin, additional, and Mitsiades, Constantine, additional

Published

2019

14. Molecular markers of myeloma cell sensitivity vs. resistance to heterobifunctional degraders of oncoproteins: therapeutic implications.

Author

Shirasaki, Ryosuke, primary, de Matos Simoes, Ricardo, additional, Gandolfi, Sara, additional, Matthews, Geoffrey, additional, Buckley, Dennis, additional, Raja, Joseline, additional, Sievers, Quinlan, additional, Bruggenthies, Johanna, additional, Dashevsky, Olga, additional, Poarch, Haley, additional, Tang, Huihui, additional, Bariteau, Megan, additional, Sheffer, Michal, additional, Hu, Yiguo, additional, Downey-Kopyscinski, Sondra, additional, Hengeveld, Paul, additional, Glassner, Brian J., additional, Dhimolea, Eugen, additional, Ott, Christopher, additional, Zhang, Tinghu, additional, Kwiatkowski, Nicholas, additional, Laubach, Jacob, additional, Schlossman, Robert, additional, Culhane, Aedin, additional, Richardson, Paul G., additional, Groen, Richard, additional, Fischer, Eric, additional, Vazquez, Francisca, additional, Tsherniak, Aviad, additional, Hahn, William, additional, Levy, Joan, additional, Auclair, Daniel, additional, Licht, Jonathan, additional, Keats, Jonathan, additional, Boise, Lawrence, additional, Ebert, Benjamin, additional, Bradner, James, additional, Gray, Nathanael, additional, and Mitsiades, Constantine, additional

Published

2019

15. Gain-of-function studies with CRISPR-based transcriptional activation at endogenous genomic loci reveals genes with critical roles for myeloma cells

Author

Tang, Huihui, primary, Shirasaki, Ryosuke, additional, Gandolfi, Sara, additional, de Matos Simoes, Ricardo, additional, Dashevsky, Olga, additional, Glassner, Brian J., additional, Downey-Kopyscinski, Sondra, additional, Sheffer, Michal, additional, Bariteau, Megan, additional, Doench, John, additional, and Mitsiades, Constantine, additional

Published

2019

16. Abstract LB-118: Characterization of lineage vs. context-dependent essential genes in multiple myeloma using CRISPR-Cas9 genome editing

Author

Matthews, Geoffrey M., primary, Simoes, Ricardo de Matos, additional, Hu, Yiguo, additional, Sheffer, Michal, additional, Dashevsky, Olga, additional, Dhimolea, Eugen, additional, Hengeveld, Paul J., additional, Glassner, Brian J., additional, Gandolfi, Sara, additional, Bariteau, Megan A., additional, Sievers, Quinlan, additional, Ebert, Benjamin L., additional, Vazquez, Franciska, additional, Culhane, Aedin, additional, and Mitsiades, Constantine S., additional

Published

2017

17. Molecular basis for discriminating between normal and damaged bases by the human alkyladenine glycosylase, AAG

Author

Lau, Albert Y., Wyatt, Michael D., Glassner, Brian J., Samson, Leona D., and Ellenberger, Tom

Subjects

DNA -- Research, Hydrogen bonding -- Research, Science and technology

Abstract

The human 3-methyladenine DNA glycosylase [alkyladenine DNA glycosylase (AAG)] catalyzes the first step of base excision repair by cleaving damaged bases from DNA. Unlike other DNA glycosylases that are specific for a particular type of damaged base, AAG excises a chemically diverse selection of substrate bases damaged by alkylation or deamination. The 2.1-[Angstrom] crystal structure of AAG complexed to DNA containing 1,[N.sup.6]-ethenoadenine suggests how modified bases can be distinguished from normal DNA bases in the enzyme active site. Mutational analyses of residues contacting the alkylated base in the crystal structures suggest that the shape of the damaged base, its hydrogen-bonding characteristics, and its aromaticity all contribute to the selective recognition of damage by AAG.

Published

2000

18. Design of an automated multicapillary instrument with fraction collection for DNA mutation discovery by constant denaturant capillary electrophoresis (CDCE)

Author

Li, Qingbo, primary, Deka, Chiranjit, additional, Glassner, Brian J., additional, Arnold, Kevin, additional, Li-Sucholeiki, Xiao-Cheng, additional, Tomita-Mitchell, Aoy, additional, Thilly, William G., additional, and Karger, Barry L., additional

Published

2005

19. Specific negative effects resulting from elevated levels of the recombinational repair protein Rad54p inSaccharomyces cerevisiae

Author

Clever, Beate, primary, Schmuckli-Maurer, Jacqueline, additional, Sigrist, Markus, additional, Glassner, Brian J., additional, and Heyer, Wolf-Dietrich, additional

Published

1999

20. The influence of DNA glycosylases on spontaneous mutation

Author

Glassner, Brian J., primary, Posnick, Lauren M., additional, and Samson, Leona D., additional

Published

1998

21. Identification of RAD 16, a yeast excision repair gene homologous to the recombinational repair gene RAD 54 and to the SNF2 gene involved in transcriptioal activation

Author

Schild, David, primary, Mortimer, Robert K., additional, Glassner, Brian J., additional, Carlson, Marian, additional, and Laurent, Brehon C., additional

Published

1992

22. Specific negative effects resulting from elevated levels of the recombinational repair protein Rad54p in Saccharomyces cerevisiae.

Author

Clever, Beate, Schmuckli-Maurer, Jacqueline, Sigrist, Markus, Glassner, Brian J., and Heyer, Wolf-Dietrich

Published

1999

23. DNA repair methyltransferase (Mgmt) knockout mice are sensitive to the lethal effects of chemotherapeutic alkylating agents.

Author

Glassner, Brian J., Weeda, Geert, Allan, James M., Broekhof, Jose' L. M., Carls, Nick H. E., Donker, Ingrid, Engelward, Bevin P., Hampson, Richard J., Hersmus, Remko, Hickman, Mark J., Roth, Richard B., Warren, Henry B., Wu, Mavis M., Hoeijmakers, Jan H. J., and Samson, Leona D.

Subjects

ALKYLATING agents, PRESERVATION of organs, tissues, etc., BONE marrow cells, IMMUNOSUPPRESSIVE agents, MUTAGENS, ANTINEOPLASTIC antibiotics, CROSSLINKING (Polymerization)

Abstract

We have generated mice deficient in O6-methylguanine DNA methyltransferase activity encoded by the murine Mgmt gene using homologous recombination to delete the region encoding the Mgmt active site cysteine. Tissues from Mgmt null mice displayed very low O6-methylguanine DNA methyltransferase activity, suggesting that Mgmt constitutes the major, if not the only, O6-methylguanine DNA methyltransferase. Primary mouse embryo fibroblasts and bone marrow cells from Mgmt –/– mice were significantly more sensitive to the toxic effects of the chemotherapeutic alkylating agents 1,3-bis(2-chloroethyl)-1-nitrosourea, streptozotocin and temozolomide than those from Mgmt wild-type mice. As expected, Mgmt-deficient fibroblasts and bone marrow cells were not sensitive to UV light or to the crosslinking agent mitomycin C. In addition, the 50% lethal doses for Mgmt –/– mice were 2- to 10-fold lower than those for Mgmt +/+ mice for 1,3-bis(2-chloroethyl)-1-nitrosourea, N-methyl-N-nitrosourea and streptozotocin; similar 50% lethal doses were observed for mitomycin C. Necropsies of both wild-type and Mgmt –/– mice following drug treatment revealed histological evidence of significant ablation of hematopoietic tissues, but such ablation occurred at much lower doses for the Mgmt –/– mice. These results demonstrate the critical importance of O6-methylguanine DNA methyltransferase in protecting cells and animals against the toxic effects of alkylating agents used for cancer chemotherapy. [ABSTRACT FROM PUBLISHER]

Published

1999

24. Specific negative effects resulting from elevated levels of the recombinational repair protein Rad54p in <TOGGLE>Saccharomyces cerevisiae</TOGGLE>

Author

Clever, Beate, Schmuckli-Maurer, Jacqueline, Sigrist, Markus, and Glassner, Brian J.

Abstract

RAD54 is an important gene in the RAD52 group that controls recombinational repair of DNA damage in Saccharomyces cerevisiae. Rad54p is a DNA-dependent ATPase and shares seven conserved sequence motifs with proteins of the Swi2p/Snf2p family. Genetic analysis of mutations in motif IA, the putative ATP-binding fold of Rad54p, demonstrated the functional importance of this motif. Overexpression of these mutant proteins resulted in strong, dominant-negative effects on cell survival. High levels of full-length wild-type Rad54p or specific parts of Rad54p also resulted in negative effects, dependent on the ploidy of the host cell. This differential effect was not under a/α mating-type control. Deletion of the RAD54 gene led to a small but significant increase in the mutation rate. However, the negative overexpression effects in haploid cells could not be explained by an accumulation of (recessive) lethal mutations. All negative overexpression effects were found to be enhanced under genotoxic stress. We suggest that the negative overexpression effects are the result of unbalanced protein–protein interactions, indicating that Rad54p is involved in multiple interactions, dependent on the physiological situation. Diploid wild-type cells contained an estimated 7000 Rad54p molecules/cell, whereas haploid cells about 3500/cell. Rad54p levels were highest in actively growing cells compared to stationary phase cells. Rad54 protein levels were found to be elevated after DNA damage. Copyright © 1999 John Wiley & Sons, Ltd.

Published

1999

25. Magnetic resonance of brain tumors: Considerations of imaging contrast on the basis of relaxation measurements

Author

Ngo, Frank Q.H., primary, Bay, Janet W., additional, Kurland, Robert J., additional, Weinstein, Meredith A., additional, Hahn, Joseph F., additional, Glassner, Brian J., additional, Woolley, Craig A., additional, Dudley, Alden W., additional, Ferrario, Carlos M., additional, and Meaney, Thomas F., additional

Published

1985