15 results on '"Landt, Stephen G."'
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2. An integrated encyclopedia of DNA elements in the human genome
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Dunham, Ian, Kundaje, Anshul, Aldred, Shelley F., Collins, Patrick J., Davis, Carrie A., Doyle, Francis, Epstein, Charles B., Frietze, Seth, Harrow, Jennifer, Kaul, Rajinder, Khatun, Jainab, Lajoie, Bryan R., Landt, Stephen G., Lee, Bum-Kyu, Pauli, Florencia, Rosenbloom, Kate R., Sabo, Peter, Safi, Alexias, Sanyal, Amartya, Shoresh, Noam, Simon, Jeremy M., Song, Lingyun, Trinklein, Nathan D., Altshuler, Robert C., Birney, Ewan, Brown, James B., Cheng, Chao, Djebali, Sarah, Dong, Xianjun, Ernst, Jason, Furey, Terrence S., Gerstein, Mark, Giardine, Belinda, Greven, Melissa, Hardison, Ross C., Harris, Robert S., Herrero, Javier, Hoffman, Michael M., Iyer, Sowmya, Kellis, Manolis, Kheradpour, Pouya, Lassmann, Timo, Li, Qunhua, Lin, Xinying, Marinov, Georgi K., Merkel, Angelika, Mortazavi, Ali, Parker, Stephen C. J., Reddy, Timothy E., Rozowsky, Joel, Schlesinger, Felix, Thurman, Robert E., Wang, Jie, Ward, Lucas D., Whitfield, Troy W., Wilder, Steven P., Wu, Weisheng, Xi, Hualin S., Yip, Kevin Y., Zhuang, Jiali, Bernstein, Bradley E., Green, Eric D., Gunter, Chris, Snyder, Michael, Pazin, Michael J., Lowdon, Rebecca F., Dillon, Laura A. L., Adams, Leslie B., Kelly, Caroline J., Zhang, Julia, Wexler, Judith R., Good, Peter J., Feingold, Elise A., Crawford, Gregory E., Dekker, Job, Elnitski, Laura, Farnham, Peggy J., Giddings, Morgan C., Gingeras, Thomas R., Guigo, Roderic, Hubbard, Timothy J., Kent, W. James, Lieb, Jason D., Margulies, Elliott H., Myers, Richard M., Stamatoyannopoulos, John A., Tenenbaum, Scott A., Weng, Zhiping, White, Kevin P., Wold, Barbara, Yu, Yanbao, Wrobel, John, Risk, Brian A., Gunawardena, Harsha P., Kuiper, Heather C., Maier, Christopher W., Xie, Ling, Chen, Xian, Mikkelsen, Tarjei S., Gillespie, Shawn, Goren, Alon, Ram, Oren, Zhang, Xiaolan, Wang, Li, Issner, Robbyn, Coyne, Michael J., Durham, Timothy, Ku, Manching, Truong, Thanh, Eaton, Matthew L., Dobin, Alex, Tanzer, Andrea, Lagarde, Julien, Lin, Wei, Xue, Chenghai, Williams, Brian A., Zaleski, Chris, Roder, Maik, Kokocinski, Felix, Abdelhamid, Rehab F., Alioto, Tyler, Antoshechkin, Igor, Baer, Michael T., Batut, Philippe, Bell, Ian, Bell, Kimberly, Chakrabortty, Sudipto, Chrast, Jacqueline, Curado, Joao, Derrien, Thomas, Drenkow, Jorg, Dumais, Erica, Dumais, Jackie, Duttagupta, Radha, Fastuca, Megan, Fejes-Toth, Kata, Ferreira, Pedro, Foissac, Sylvain, Fullwood, Melissa J., Gao, Hui, Gonzalez, David, Gordon, Assaf, Howald, Cedric, Jha, Sonali, Johnson, Rory, Kapranov, Philipp, King, Brandon, Kingswood, Colin, Li, Guoliang, Luo, Oscar J., Park, Eddie, Preall, Jonathan B., Presaud, Kimberly, Ribeca, Paolo, Robyr, Daniel, Ruan, Xiaoan, Sammeth, Michael, Sandhu, Kuljeet Singh, Schaeffer, Lorain, See, Lei-Hoon, Shahab, Atif, Skancke, Jorgen, Suzuki, Ana Maria, Takahashi, Hazuki, Tilgner, Hagen, Trout, Diane, Walters, Nathalie, Wang, Huaien, Hayashizaki, Yoshihide, Reymond, Alexandre, Antonarakis, Stylianos E., Hannon, Gregory J., Ruan, Yijun, Carninci, Piero, Sloan, Cricket A., Learned, Katrina, Malladi, Venkat S., Wong, Matthew C., Barber, Galt P., Cline, Melissa S., Dreszer, Timothy R., Heitner, Steven G., Karolchik, Donna, Kirkup, Vanessa M., Meyer, Laurence R., Long, Jeffrey C., Maddren, Morgan, Raney, Brian J., Grasfeder, Linda L., Giresi, Paul G., Battenhouse, Anna, Sheffield, Nathan C., Showers, Kimberly A., London, Darin, Bhinge, Akshay A., Shestak, Christopher, Schaner, Matthew R., Ki Kim, Seul, Zhang, Zhuzhu Z., Mieczkowski, Piotr A., Mieczkowska, Joanna O., Liu, Zheng, McDaniell, Ryan M., Ni, Yunyun, Rashid, Naim U., Kim, Min Jae, Adar, Sheera, Zhang, Zhancheng, Wang, Tianyuan, Winter, Deborah, Keefe, Damian, Iyer, Vishwanath R., Zheng, Meizhen, Wang, Ping, Gertz, Jason, Vielmetter, Jost, Partridge, E., Varley, Katherine E., Gasper, Clarke, Bansal, Anita, Pepke, Shirley, Jain, Preti, Amrhein, Henry, Bowling, Kevin M., Anaya, Michael, Cross, Marie K., Muratet, Michael A., Newberry, Kimberly M., McCue, Kenneth, Nesmith, Amy S., Fisher-Aylor, Katherine I., Pusey, Barbara, DeSalvo, Gilberto, Parker, Stephanie L., Balasubramanian, Sreeram, Davis, Nicholas S., Meadows, Sarah K., Eggleston, Tracy, Newberry, J. Scott, Levy, Shawn E., Absher, Devin M., Wong, Wing H., Blow, Matthew J., Visel, Axel, Pennachio, Len A., Petrykowska, Hanna M., Abyzov, Alexej, Aken, Bronwen, Barrell, Daniel, Barson, Gemma, Berry, Andrew, Bignell, Alexandra, Boychenko, Veronika, Bussotti, Giovanni, Davidson, Claire, Despacio-Reyes, Gloria, Diekhans, Mark, Ezkurdia, Iakes, Frankish, Adam, Gilbert, James, Gonzalez, Jose Manuel, Griffiths, Ed, Harte, Rachel, Hendrix, David A., Hunt, Toby, Jungreis, Irwin, Kay, Mike, Khurana, Ekta, Leng, Jing, Lin, Michael F., Loveland, Jane, Lu, Zhi, Manthravadi, Deepa, Mariotti, Marco, Mudge, Jonathan, Mukherjee, Gaurab, Notredame, Cedric, Pei, Baikang, Rodriguez, Jose Manuel, Saunders, Gary, Sboner, Andrea, Searle, Stephen, Sisu, Cristina, Snow, Catherine, Steward, Charlie, Tapanari, Electra, Tress, Michael L., van Baren, Marijke J., Washietl, Stefan, Wilming, Laurens, Zadissa, Amonida, Zhang, Zhengdong, Brent, Michael, Haussler, David, Valencia, Alfonso, Addleman, Nick, Alexander, Roger P., Auerbach, Raymond K., Balasubramanian, Suganthi, Bettinger, Keith, Bhardwaj, Nitin, Boyle, Alan P., Cao, Alina R., Cayting, Philip, Charos, Alexandra, Cheng, Yong, Eastman, Catharine, Euskirchen, Ghia, Fleming, Joseph D., Grubert, Fabian, Habegger, Lukas, Hariharan, Manoj, Harmanci, Arif, Iyengar, Sushma, Jin, Victor X., Karczewski, Konrad J., Kasowski, Maya, Lacroute, Phil, Lam, Hugo, Lamarre-Vincent, Nathan, Lian, Jin, Lindahl-Allen, Marianne, Min, Renqiang, Miotto, Benoit, Monahan, Hannah, Moqtaderi, Zarmik, Mu, Xinmeng J., Ouyang, Zhengqing, Patacsil, Dorrelyn, Raha, Debasish, Ramirez, Lucia, Reed, Brian, Shi, Minyi, Slifer, Teri, Witt, Heather, Wu, Linfeng, Xu, Xiaoqin, Yan, Koon-Kiu, Yang, Xinqiong, Struhl, Kevin, Weissman, Sherman M., Penalva, Luiz O., Karmakar, Subhradip, Bhanvadia, Raj R., Choudhury, Alina, Domanus, Marc, Ma, Lijia, Moran, Jennifer, Victorsen, Alec, Auer, Thomas, Centanin, Lazaro, Eichenlaub, Michael, Gruhl, Franziska, Heermann, Stephan, Hoeckendorf, Burkhard, Inoue, Daigo, Kellner, Tanja, Kirchmaier, Stephan, Mueller, Claudia, Reinhardt, Robert, Schertel, Lea, Schneider, Stephanie, Sinn, Rebecca, Wittbrodt, Beate, Wittbrodt, Jochen, Partridge, E. Christopher, Jain, Gaurav, Balasundaram, Gayathri, Bates, Daniel L., Byron, Rachel, Canfield, Theresa K., Diegel, Morgan J., Dunn, Douglas, Ebersol, Abigail K., Frum, Tristan, Garg, Kavita, Gist, Erica, Hansen, R. Scott, Boatman, Lisa, Haugen, Eric, Humbert, Richard, Johnson, Audra K., Johnson, Ericka M., Kutyavin, Tattyana V., Lee, Kristen, Lotakis, Dimitra, Maurano, Matthew T., Neph, Shane J., Neri, Fiedencio V., Nguyen, Eric D., Qu, Hongzhu, Reynolds, Alex P., Roach, Vaughn, Rynes, Eric, Sanchez, Minerva E., Sandstrom, Richard S., Shafer, Anthony O., Stergachis, Andrew B., Thomas, Sean, Vernot, Benjamin, Vierstra, Jeff, Vong, Shinny, Weaver, Molly A., Yan, Yongqi, Zhang, Miaohua, Akey, Joshua M., Bender, Michael, Dorschner, Michael O., Groudine, Mark, MacCoss, Michael J., Navas, Patrick, Stamatoyannopoulos, George, Beal, Kathryn, Brazma, Alvis, Flicek, Paul, Johnson, Nathan, Lukk, Margus, Luscombe, Nicholas M., Sobral, Daniel, Vaquerizas, Juan M., Batzoglou, Serafim, Sidow, Arend, Hussami, Nadine, Kyriazopoulou-Panagiotopoulou, Sofia, Libbrecht, Max W., Schaub, Marc A., Miller, Webb, Bickel, Peter J., Banfai, Balazs, Boley, Nathan P., Huang, Haiyan, Li, Jingyi Jessica, Noble, William Stafford, Bilmes, Jeffrey A., Buske, Orion J., Sahu, Avinash D., Kharchenko, Peter V., Park, Peter J., Baker, Dannon, Taylor, James, and Lochovsky, Lucas
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Genetic research ,Human genome -- Research ,Genetic transcription -- Research ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
The human genome encodes the blueprint of life, but the function of the vast majority of its nearly three billion bases is unknown. The Encyclopedia of DNA Elements (ENCODE) project has systematically mapped regions of transcription, transcription factor association, chromatin structure and histone modification. These data enabled us to assign biochemical functions for 80% of the genome, in particular outside of the well-studied protein-coding regions. Many discovered candidate regulatory elements are physically associated with one another and with expressed genes, providing new insights into the mechanisms of gene regulation. The newly identified elements also show a statistical correspondence to sequence variants linked to human disease, and can thereby guide interpretation of this variation. Overall, the project provides new insights into the organization and regulation of our genes and genome, and is an expansive resource of functional annotations for biomedical research., Author(s): The ENCODE Project Consortium; Overall coordination (data analysis coordination); Ian Dunham [2]; Anshul Kundaje [3, 82]; Data production leads (data production); Shelley F. Aldred [4]; Patrick J. Collins [4]; [...]
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- 2012
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3. Architecture of the human regulatory network derived from ENCODE data
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Gerstein, Mark B., Kundaje, Anshul, Hariharan, Manoj, Landt, Stephen G., Yan, Koon-Kiu, Cheng, Chao, Mu, Xinmeng Jasmine, Khurana, Ekta, Rozowsky, Joel, Alexander, Roger, Min, Renqiang, Alves, Pedro, Abyzov, Alexej, Addleman, Nick, Bhardwaj, Nitin, Boyle, Alan P., Cayting, Philip, Charos, Alexandra, Chen, David Z., Cheng, Yong, Clarke, Declan, Eastman, Catharine, Euskirchen, Ghia, Frietze, Seth, Fu, Yao, Gertz, Jason, Grubert, Fabian, Harmanci, Arif, Jain, Preti, Kasowski, Maya, Lacroute, Phil, Leng, Jing, Lian, Jin, Monahan, Hannah, O'Geen, Henriette, Ouyang, Zhengqing, Partridge, E. Christopher, Patacsil, Dorrelyn, Pauli, Florencia, Raha, Debasish, Ramirez, Lucia, Reddy, Timothy E., Reed, Brian, Shi, Minyi, Slifer, Teri, Wang, Jing, Wu, Linfeng, Yang, Xinqiong, Yip, Kevin Y., Zilberman-Schapira, Gili, Batzoglou, Serafim, Sidow, Arend, Farnham, Peggy J., Myers, Richard M., Weissman, Sherman M., and Snyder, Michael
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Protein-protein interactions -- Genetic aspects -- Research ,Genetic regulation -- Research ,Transcription factors -- Research ,Allelomorphism -- Research ,DNA binding proteins -- Research ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
Transcription factors bind in a combinatorial fashion to specify the on-and-off states of genes; the ensemble of these binding events forms a regulatory network, constituting the wiring diagram for a cell. To examine the principles of the human transcriptional regulatory network, we determined the genomic binding information of 119 transcription-related factors in over 450 distinct experiments. We found the combinatorial, co-association of transcription factors to be highly context specific: distinct combinations of factors bind at specific genomic locations. In particular, there are significant differences in the binding proximal and distal to genes. We organized all the transcription factor binding into a hierarchy and integrated it with other genomic information (for example, microRNA regulation), forming a dense meta-network. Factors at different levels have different properties; for instance, top-level transcription factors more strongly influence expression and middle-level ones co-regulate targets to mitigate information-flow bottlenecks. Moreover, these co-regulations give rise to many enriched network motifs (for example, noise-buffering feed-forward loops). Finally, more connected network components are under stronger selection and exhibit a greater degree of allele-specific activity (that is, differential binding to the two parental alleles). The regulatory information obtained in this study will be crucial for interpreting personal genome sequences and understanding basic principles of human biology and disease., Author(s): Mark B. Gerstein (corresponding author) [1, 2, 3, 15]; Anshul Kundaje [4, 15]; Manoj Hariharan [5, 15]; Stephen G. Landt [5, 15]; Koon-Kiu Yan [1, 2, 15]; Chao Cheng [...]
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- 2012
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4. CrfA, a small noncoding RNA regulator of adaptation to carbon starvation in Caulobacter crescentus
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Landt, Stephen G., Lesley, Joseph A., Britos, Leticia, and Shapiro, Lucy
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Genetic regulation -- Physiological aspects ,Genetic transcription -- Physiological aspects ,RNA -- Physiological aspects ,Caulobacter -- Genetic aspects ,Caulobacter -- Physiological aspects ,Biological sciences - Abstract
Small noncoding regulatory RNAs (sRNAs) play a key role in the posttranscriptional regulation of many bacterial genes. The genome of Caulobacter crescentus encodes at least 31 sRNAs, and 27 of these sRNAs are of unknown function. An overexpression screen for sRNA-induced growth inhibition along with sequence conservation in a related Caulobacter species led to the identification of a novel sRNA, CrfA, that is specifically induced upon carbon starvation. Twenty-seven genes were found to be strongly activated by CrfA accumulation. One-third of these target genes encode putative TonB-dependent receptors, suggesting CrfA plays a role in the surface modification of C. crescentus, facilitating the uptake of nutrients during periods of carbon starvation. The mechanism of CrfA-mediated gene activation was investigated for one of the genes predicted to encode a TonB-dependent receptor, CC3461. CrfA functions to stabilize the CC3461 transcript. Complementarity between a region of CrfA and the terminal region of the CC3461 5'-untranslated region (5'-UTR) and also the behavior of a deletion of this region and a site-specific base substitution and a 3-base deletion in the CrfA complementary sequence suggest that CrfA binds to a stem-loop structure upstream of the CC3461 Shine-Dalgarno sequence and stabilizes the transcript. doi: 10.1128/JB.00343-10
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- 2010
5. A Strategy for Identifying Noncoding RNAs Using Whole-Genome Tiling Arrays
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Landt, Stephen G., primary and Abeliuk, Eduardo, additional
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- 2012
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6. Small non-coding RNAs in Caulobacter crescentus
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Landt, Stephen G., Abeliuk, Eduardo, McGrath, Patrick T., Lesley, Joseph A., McAdams, Harley H., and Shapiro, Lucy
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- 2008
7. [23] Screening RNA-binding libraries using tat-fusion system in mammalian cells
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Landt, Stephen G, primary, Tan, Ruoying, additional, and Frankel, Alan D, additional
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- 2000
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8. An encyclopedia of mouse DNA elements (Mouse ENCODE)
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Stamatoyannopoulos, John A, Snyder, Michael, Hardison, Ross, Ren, Bing, Gingeras, Thomas, Gilbert, David M, Groudine, Mark, Bender, Michael, Kaul, Rajinder, Canfield, Theresa, Giste, Erica, Johnson, Audra, Zhang, Mia, Balasundaram, Gayathri, Byron, Rachel, Roach, Vaughan, Sabo, Peter J, Sandstrom, Richard, Stehling, A Sandra, Thurman, Robert E, Weissman, Sherman M, Cayting, Philip, Hariharan, Manoj, Lian, Jin, Cheng, Yong, Landt, Stephen G, Ma, Zhihai, Wold, Barbara J, Dekker, Job, Crawford, Gregory E, Keller, Cheryl A, Wu, Weisheng, Morrissey, Christopher, Kumar, Swathi A, Mishra, Tejaswini, Jain, Deepti, Byrska-Bishop, Marta, Blankenberg, Daniel, Lajoie, Bryan R, Jain, Gaurav, Sanyal, Amartya, Chen, Kaun-Bei, Denas, Olgert, Taylor, James, Blobel, Gerd A, Weiss, Mitchell J, Pimkin, Max, Deng, Wulan, Marinov, Georgi K, Williams, Brian A, Fisher-Aylor, Katherine I, Desalvo, Gilberto, Kiralusha, Anthony, Trout, Diane, Amrhein, Henry, Mortazavi, Ali, Edsall, Lee, McCleary, David, Kuan, Samantha, Shen, Yin, Yue, Feng, Ye, Zhen, Davis, Carrie A, Zaleski, Chris, Jha, Sonali, Xue, Chenghai, Dobin, Alex, Lin, Wei, Fastuca, Meagan, Wang, Huaien, Guigo, Roderic, Djebali, Sarah, Lagarde, Julien, Ryba, Tyrone, Sasaki, Takayo, Malladi, Venkat S, Cline, Melissa S, Kirkup, Vanessa M, Learned, Katrina, Rosenbloom, Kate R, Kent, W James, Feingold, Elise A, Good, Peter J, Pazin, Michael, Lowdon, Rebecca F, and Adams, Leslie B
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- 2012
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9. Localized influence of 2'-hydroxyl groups and gelix geometry on protein recognition in the RNA major groove
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Landt, Stephen G., Tipton, Alicia R., and Frankel, Alan D.
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Anisotropy -- Analysis ,Circular dichroism -- Analysis ,Arginine -- Properties ,Arginine -- Spectra ,HIV (Viruses) -- Research ,Biological sciences ,Chemistry - Abstract
The minimal 2'-hydroxyl group required for specific recognition of human immunodeficiency viruses (HIV) TAR by arginine and bovine immunodeficiency viruses (BIV) TAR by a BIV Tat peptide is defined. The results suggested that the helix geometries and unique conformational features required for binding are established locally and are relatively insulated from effects more than one base pair away.
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- 2005
10. A Cell-Based Method for Screening RNA-Protein Interactions: Identification of Constitutive Transport Element-Interacting Proteins
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Nakamura, Robert L., primary, Landt, Stephen G., additional, Mai, Emily, additional, Nejim, Jemiel, additional, Chen, Lily, additional, and Frankel, Alan D., additional
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- 2012
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11. Characterization of Enhancer Function from Genome-Wide Analyses
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Maston, Glenn A., primary, Landt, Stephen G., additional, Snyder, Michael, additional, and Green, Michael R., additional
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- 2012
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12. ChIP-seq guidelines and practices of the ENCODE and modENCODE consortia
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Landt, Stephen G., primary, Marinov, Georgi K., additional, Kundaje, Anshul, additional, Kheradpour, Pouya, additional, Pauli, Florencia, additional, Batzoglou, Serafim, additional, Bernstein, Bradley E., additional, Bickel, Peter, additional, Brown, James B., additional, Cayting, Philip, additional, Chen, Yiwen, additional, DeSalvo, Gilberto, additional, Epstein, Charles, additional, Fisher-Aylor, Katherine I., additional, Euskirchen, Ghia, additional, Gerstein, Mark, additional, Gertz, Jason, additional, Hartemink, Alexander J., additional, Hoffman, Michael M., additional, Iyer, Vishwanath R., additional, Jung, Youngsook L., additional, Karmakar, Subhradip, additional, Kellis, Manolis, additional, Kharchenko, Peter V., additional, Li, Qunhua, additional, Liu, Tao, additional, Liu, X. Shirley, additional, Ma, Lijia, additional, Milosavljevic, Aleksandar, additional, Myers, Richard M., additional, Park, Peter J., additional, Pazin, Michael J., additional, Perry, Marc D., additional, Raha, Debasish, additional, Reddy, Timothy E., additional, Rozowsky, Joel, additional, Shoresh, Noam, additional, Sidow, Arend, additional, Slattery, Matthew, additional, Stamatoyannopoulos, John A., additional, Tolstorukov, Michael Y., additional, White, Kevin P., additional, Xi, Simon, additional, Farnham, Peggy J., additional, Lieb, Jason D., additional, Wold, Barbara J., additional, and Snyder, Michael, additional
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- 2012
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13. A Simple Motif for Protein Recognition in DNA Secondary Structures
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Landt, Stephen G., primary, Ramirez, Alejandro, additional, Daugherty, Matthew D., additional, and Frankel, Alan D., additional
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- 2005
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14. Localized Influence of 2‘-Hydroxyl Groups and Helix Geometry on Protein Recognition in the RNA Major Groove
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Landt, Stephen G., primary, Tipton, Alicia R., additional, and Frankel, Alan D., additional
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- 2005
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15. A strategy for identifying noncoding RNAs using whole-genome tiling arrays.
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Landt SG and Abeliuk E
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- RNA, Messenger analysis, RNA, Messenger genetics, RNA, Messenger isolation & purification, RNA, Untranslated isolation & purification, Genomics methods, Oligonucleotide Array Sequence Analysis methods, RNA, Untranslated analysis, RNA, Untranslated genetics
- Abstract
Whole-genome tiling arrays are powerful tools for detecting and characterizing novel RNA transcripts. Here, we describe a complete method combining elements of molecular and computational biology to identify small noncoding RNA (sRNA) transcripts. We focus on the key features of this approach, which include size-fractionation of input RNA, direct detection of array hybridization with antibodies that recognize RNA:DNA hybrids, and correlation-based computational methods for automated sRNA identification and boundary determination.
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- 2012
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