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1. A modular CRISPR screen identifies individual and combination pathways contributing to HIV-1 latency

Author

Hsieh, Emily, Janssens, Derek H, Paddison, Patrick J, Browne, Edward P, Henikoff, Steve, OhAinle, Molly, and Emerman, Michael

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Infectious Diseases, Genetics, HIV/AIDS, Infection, Humans, Histones, Nuclear Proteins, HIV-1, HIV Infections, Transcription Factors, Virus Latency, Clustered Regularly Interspaced Short Palindromic Repeats, HIV Seropositivity, Proviruses, CD4-Positive T-Lymphocytes, Homeodomain Proteins, Tumor Suppressor Proteins, Cell Cycle Proteins, Microbiology, Virology, Medical microbiology
Abstract

Transcriptional silencing of latent HIV-1 proviruses entails complex and overlapping mechanisms that pose a major barrier to in vivo elimination of HIV-1. We developed a new latency CRISPR screening strategy, called Latency HIV-CRISPR which uses the packaging of guideRNA-encoding lentiviral vector genomes into the supernatant of budding virions as a direct readout of factors involved in the maintenance of HIV-1 latency. We developed a custom guideRNA library targeting epigenetic regulatory genes and paired the screen with and without a latency reversal agent-AZD5582, an activator of the non-canonical NFκB pathway-to examine a combination of mechanisms controlling HIV-1 latency. A component of the Nucleosome Acetyltransferase of H4 histone acetylation (NuA4 HAT) complex, ING3, acts in concert with AZD5582 to activate proviruses in J-Lat cell lines and in a primary CD4+ T cell model of HIV-1 latency. We found that the knockout of ING3 reduces acetylation of the H4 histone tail and BRD4 occupancy on the HIV-1 LTR. However, the combination of ING3 knockout accompanied with the activation of the non-canonical NFκB pathway via AZD5582 resulted in a dramatic increase in initiation and elongation of RNA Polymerase II on the HIV-1 provirus in a manner that is nearly unique among all cellular promoters.

Published
2023

2. Tissue-specific variation in DNA methylation levels along human chromosome 1

Author

De Bustos Cecilia, Ramos Edward, Young Janet M, Tran Robert K, Menzel Uwe, Langford Cordelia F, Eichler Evan E, Hsu Li, Henikoff Steve, Dumanski Jan P, and Trask Barbara J

Subjects
Genetics, QH426-470
Abstract

Abstract Background DNA methylation is a major epigenetic modification important for regulating gene expression and suppressing spurious transcription. Most methods to scan the genome in different tissues for differentially methylated sites have focused on the methylation of CpGs in CpG islands, which are concentrations of CpGs often associated with gene promoters. Results Here, we use a methylation profiling strategy that is predominantly responsive to methylation differences outside of CpG islands. The method compares the yield from two samples of size-selected fragments generated by a methylation-sensitive restriction enzyme. We then profile nine different normal tissues from two human donors relative to spleen using a custom array of genomic clones covering the euchromatic portion of human chromosome 1 and representing 8% of the human genome. We observe gross regional differences in methylation states across chromosome 1 between tissues from the same individual, with the most striking differences detected in the comparison of cerebellum and spleen. Profiles of the same tissue from different donors are strikingly similar, as are the profiles of different lobes of the brain. Comparing our results with published gene expression levels, we find that clones exhibiting extreme ratios reflecting low relative methylation are statistically enriched for genes with high expression ratios, and vice versa, in most pairs of tissues examined. Conclusion The varied patterns of methylation differences detected between tissues by our methylation profiling method reinforce the potential functional significance of regional differences in methylation levels outside of CpG islands.

Published
2009
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3. The structure of a virus-encoded nucleosome

Author

Valencia-Sánchez, Marco Igor, Abini-Agbomson, Stephen, Wang, Miao, Lee, Rachel, Vasilyev, Nikita, Zhang, Jenny, De Ioannes, Pablo, La Scola, Bernard, Talbert, Paul, Henikoff, Steve, Nudler, Evgeny, Erives, Albert, and Armache, Karim-Jean

Published
2021
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8. Tissue-specific variation in DNA methylation levels along human chromosome 1

Author

De Bustos, Cecilia, Ramos, Edward, Young, Janet M., Tran, Robert K., Menzel, Uwe, Langford, Cordelia F., Eichler, Evan E., Hsu, Li, Henikoff, Steve, Dumanski, Jan P., Trask, Barbara J., De Bustos, Cecilia, Ramos, Edward, Young, Janet M., Tran, Robert K., Menzel, Uwe, Langford, Cordelia F., Eichler, Evan E., Hsu, Li, Henikoff, Steve, Dumanski, Jan P., and Trask, Barbara J.

Abstract

BACKGROUND: DNA methylation is a major epigenetic modification important for regulating gene expression and suppressing spurious transcription. Most methods to scan the genome in different tissues for differentially methylated sites have focused on the methylation of CpGs in CpG islands, which are concentrations of CpGs often associated with gene promoters. RESULTS: Here, we use a methylation profiling strategy that is predominantly responsive to methylation differences outside of CpG islands. The method compares the yield from two samples of size-selected fragments generated by a methylation-sensitive restriction enzyme. We then profile nine different normal tissues from two human donors relative to spleen using a custom array of genomic clones covering the euchromatic portion of human chromosome 1 and representing 8% of the human genome. We observe gross regional differences in methylation states across chromosome 1 between tissues from the same individual, with the most striking differences detected in the comparison of cerebellum and spleen. Profiles of the same tissue from different donors are strikingly similar, as are the profiles of different lobes of the brain. Comparing our results with published gene expression levels, we find that clones exhibiting extreme ratios reflecting low relative methylation are statistically enriched for genes with high expression ratios, and vice versa, in most pairs of tissues examined. CONCLUSION: The varied patterns of methylation differences detected between tissues by our methylation profiling method reinforce the potential functional significance of regional differences in methylation levels outside of CpG islands.

Published
2009
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15. Global DNA methylation profiling of chromosome 1 in differentiated human tissues and cell lines lacking DNMT1 and/or DNMT3B

Author

De Bustos, Cecilia, Ramos, Edward, Tran, Robert T., Menzel, Uwe, Piotrowski, Arkadiusz, Langford, Cordelia L., Eichler, Evan E., Hsu, Li, Henikoff, Steve, Trask, Barbara J., Dumanski, Jan P, De Bustos, Cecilia, Ramos, Edward, Tran, Robert T., Menzel, Uwe, Piotrowski, Arkadiusz, Langford, Cordelia L., Eichler, Evan E., Hsu, Li, Henikoff, Steve, Trask, Barbara J., and Dumanski, Jan P

16. Epigenetics & chromatin: interactions and processes

Author

Henikoff Steven and Grosveld Frank

Subjects
Genetics, QH426-470
Abstract

Abstract On 11 to 13 March 2013, BioMed Central will be hosting its inaugural conference, Epigenetics & Chromatin: Interactions and Processes, at Harvard Medical School, Cambridge, MA, USA. Epigenetics & Chromatin has now launched a special article series based on the general themes of the conference.

Published
2013
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17. Chromatin roadblocks to reprogramming 50 years on

Author

Skene Peter J and Henikoff Steven

Subjects
Biology (General), QH301-705.5
Abstract

Abstract A half century after John Gurdon demonstrated nuclear reprogramming, for which he was awarded the 2012 Nobel Prize in Physiology or Medicine, his group provides insights into the molecular mechanisms whereby chromatin remodeling is required for nuclear reprogramming. Among the issues addressed in Gurdon's latest work are the chromatin impediments to artificially induced reprogramming, discovered by Shinya Yamanaka, who shared the award with Gurdon. See research article: http://www.epigeneticsandchromatin.com/content/5/1/17

Published
2012
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18. A unified phylogeny-based nomenclature for histone variants

Author

Talbert Paul B, Ahmad Kami, Almouzni Geneviève, Ausió Juan, Berger Frederic, Bhalla Prem L, Bonner William M, Cande W, Chadwick Brian P, Chan Simon W L, Cross George A M, Cui Liwang, Dimitrov Stefan I, Doenecke Detlef, Eirin-López José M, Gorovsky Martin A, Hake Sandra B, Hamkalo Barbara A, Holec Sarah, Jacobsen Steven E, Kamieniarz Kinga, Khochbin Saadi, Ladurner Andreas G, Landsman David, Latham John A, Loppin Benjamin, Malik Harmit S, Marzluff William F, Pehrson John R, Postberg Jan, Schneider Robert, Singh Mohan B, Smith M, Thompson Eric, Torres-Padilla Maria-Elena, Tremethick David, Turner Bryan M, Waterborg Jakob, Wollmann Heike, Yelagandula Ramesh, Zhu Bing, and Henikoff Steven

Subjects
Genetics, QH426-470
Abstract

Abstract Histone variants are non-allelic protein isoforms that play key roles in diversifying chromatin structure. The known number of such variants has greatly increased in recent years, but the lack of naming conventions for them has led to a variety of naming styles, multiple synonyms and misleading homographs that obscure variant relationships and complicate database searches. We propose here a unified nomenclature for variants of all five classes of histones that uses consistent but flexible naming conventions to produce names that are informative and readily searchable. The nomenclature builds on historical usage and incorporates phylogenetic relationships, which are strong predictors of structure and function. A key feature is the consistent use of punctuation to represent phylogenetic divergence, making explicit the relationships among variant subtypes that have previously been implicit or unclear. We recommend that by default new histone variants be named with organism-specific paralog-number suffixes that lack phylogenetic implication, while letter suffixes be reserved for structurally distinct clades of variants. For clarity and searchability, we encourage the use of descriptors that are separate from the phylogeny-based variant name to indicate developmental and other properties of variants that may be independent of structure.

Published
2012
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20. Single-epitope recognition imaging of native chromatin

Author

Wang Hongda, Dalal Yamini, Henikoff Steven, and Lindsay Stuart

Subjects
Genetics, QH426-470
Abstract

Abstract Background Direct visualization of chromatin has the potential to provide important insights into epigenetic processes. In particular, atomic force microscopy (AFM) can visualize single nucleosomes under physiological ionic conditions. However, AFM has mostly been applied to chromatin that has been reconstituted in vitro, and its potential as a tool for the dissection of native nucleosomes has not been explored. Recently we applied AFM to native Drosophila chromatin containing the centromere-specific histone 3 (CenH3), showing that it is greatly enriched in smaller particles. Taken together with biochemical analyses of CenH3 nucleosomes, we propose that centromeric nucleosomes are hemisomes, with one turn of DNA wrapped around a particle consisting of one molecule each of centromere-specific CenH3, H4, H2A and H2B. Results Here we apply a recognition mode of AFM imaging to directly identify CenH3 within histone core particles released from native centromeric chromatin. More than 90% of these particles were found to be tetrameric in height. The specificity of recognition was confirmed by blocking with a CenH3 peptide, and the strength of the interaction was quantified by force measurements. These results imply that the particles imaged by AFM are indeed mature CenH3-containing hemisomes. Conclusion Efficient and highly specific recognition of CenH3 in histone core particles isolated from native centromeric chromatin demonstrates that tetramers are the predominant form of centromeric nucleosomes in mature tetramers. Our findings provide proof of principle that this approach can yield insights into chromatin biology using direct and rapid detection of native nucleosomes in physiological salt concentrations.

Published
2008
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22. TILLING to detect induced mutations in soybean

Author

Nielsen Niels, Ritchie Rae, Liu Shiming, El-Mellouki Tarik, Jamai Aziz, Kleffner Justin M, Darlow Margaret C, Laport Robert G, Till Bradley J, Cooper Jennifer L, Bilyeu Kristin D, Meksem Khalid, Comai Luca, and Henikoff Steven

Subjects
Botany, QK1-989
Abstract

Abstract Background Soybean (Glycine max L. Merr.) is an important nitrogen-fixing crop that provides much of the world's protein and oil. However, the available tools for investigation of soybean gene function are limited. Nevertheless, chemical mutagenesis can be applied to soybean followed by screening for mutations in a target of interest using a strategy known as Targeting Induced Local Lesions IN Genomes (TILLING). We have applied TILLING to four mutagenized soybean populations, three of which were treated with ethyl methanesulfonate (EMS) and one with N-nitroso-N-methylurea (NMU). Results We screened seven targets in each population and discovered a total of 116 induced mutations. The NMU-treated population and one EMS mutagenized population had similar mutation density (~1/140 kb), while another EMS population had a mutation density of ~1/250 kb. The remaining population had a mutation density of ~1/550 kb. Because of soybean's polyploid history, PCR amplification of multiple targets could impede mutation discovery. Indeed, one set of primers tested in this study amplified more than a single target and produced low quality data. To address this problem, we removed an extraneous target by pretreating genomic DNA with a restriction enzyme. Digestion of the template eliminated amplification of the extraneous target and allowed the identification of four additional mutant alleles compared to untreated template. Conclusion The development of four independent populations with considerable mutation density, together with an additional method for screening closely related targets, indicates that soybean is a suitable organism for high-throughput mutation discovery even with its extensively duplicated genome.

Published
2008
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23. Discovery of chemically induced mutations in rice by TILLING

Author

Colowit Peter, Tai Thomas H, Cooper Jennifer, Till Bradley J, Greene Elizabeth A, Henikoff Steven, and Comai Luca

Subjects
Botany, QK1-989
Abstract

Abstract Background Rice is both a food source for a majority of the world's population and an important model system. Available functional genomics resources include targeted insertion mutagenesis and transgenic tools. While these can be powerful, a non-transgenic, unbiased targeted mutagenesis method that can generate a range of allele types would add considerably to the analysis of the rice genome. TILLING (Targeting Induced Local Lesions in Genomes), a general reverse genetic technique that combines traditional mutagenesis with high throughput methods for mutation discovery, is such a method. Results To apply TILLING to rice, we developed two mutagenized rice populations. One population was developed by treatment with the chemical mutagen ethyl methanesulphonate (EMS), and the other with a combination of sodium azide plus methyl-nitrosourea (Az-MNU). To find induced mutations, target regions of 0.7–1.5 kilobases were PCR amplified using gene specific primers labeled with fluorescent dyes. Heteroduplexes were formed through denaturation and annealing of PCR products, mismatches digested with a crude preparation of CEL I nuclease and cleaved fragments visualized using denaturing polyacrylamide gel electrophoresis. In 10 target genes screened, we identified 27 nucleotide changes in the EMS-treated population and 30 in the Az-MNU population. Conclusion We estimate that the density of induced mutations is two- to threefold higher than previously reported rice populations (about 1/300 kb). By comparison to other plants used in public TILLING services, we conclude that the populations described here would be suitable for use in a large scale TILLING project.

Published
2007
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24. Adaptive evolution of centromere proteins in plants and animals

Author

Henikoff Steven, Bryson Terri D, and Talbert Paul B

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Background Centromeres represent the last frontiers of plant and animal genomics. Although they perform a conserved function in chromosome segregation, centromeres are typically composed of repetitive satellite sequences that are rapidly evolving. The nucleosomes of centromeres are characterized by a special H3-like histone (CenH3), which evolves rapidly and adaptively in Drosophila and Arabidopsis. Most plant, animal and fungal centromeres also bind a large protein, centromere protein C (CENP-C), that is characterized by a single 24 amino-acid motif (CENPC motif). Results Whereas we find no evidence that mammalian CenH3 (CENP-A) has been evolving adaptively, mammalian CENP-C proteins contain adaptively evolving regions that overlap with regions of DNA-binding activity. In plants we find that CENP-C proteins have complex duplicated regions, with conserved amino and carboxyl termini that are dissimilar in sequence to their counterparts in animals and fungi. Comparisons of Cenpc genes from Arabidopsis species and from grasses revealed multiple regions that are under positive selection, including duplicated exons in some grasses. In contrast to plants and animals, yeast CENP-C (Mif2p) is under negative selection. Conclusions CENP-Cs in all plant and animal lineages examined have regions that are rapidly and adaptively evolving. To explain these remarkable evolutionary features for a single-copy gene that is needed at every mitosis, we propose that CENP-Cs, like some CenH3s, suppress meiotic drive of centromeres during female meiosis. This process can account for the rapid evolution and the complexity of centromeric DNA in plants and animals as compared to fungi.

Published
2004
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25. Discovery of induced point mutations in maize genes by TILLING

Author

Enns Linda C, Codomo Christine A, Bowers Elisabeth, Young Kim, Burtner Chris, Springer Nathan, Weil Clifford, Reynolds Steven H, Till Bradley J, Odden Anthony R, Greene Elizabeth A, Comai Luca, and Henikoff Steven

Subjects
Botany, QK1-989
Abstract

Abstract Background Going from a gene sequence to its function in the context of a whole organism requires a strategy for targeting mutations, referred to as reverse genetics. Reverse genetics is highly desirable in the modern genomics era; however, the most powerful methods are generally restricted to a few model organisms. Previously, we introduced a reverse-genetic strategy with the potential for general applicability to organisms that lack well-developed genetic tools. Our TILLING (Targeting Induced Local Lesions IN Genomes) method uses chemical mutagenesis followed by screening for single-base changes to discover induced mutations that alter protein function. TILLING was shown to be an effective reverse genetic strategy by the establishment of a high-throughput TILLING facility and the delivery of thousands of point mutations in hundreds of Arabidopsis genes to members of the plant biology community. Results We demonstrate that high-throughput TILLING is applicable to maize, an important crop plant with a large genome but with limited reverse-genetic resources currently available. We screened pools of DNA samples for mutations in 1-kb segments from 11 different genes, obtaining 17 independent induced mutations from a population of 750 pollen-mutagenized maize plants. One of the genes targeted was the DMT102 chromomethylase gene, for which we obtained an allelic series of three missense mutations that are predicted to be strongly deleterious. Conclusions Our findings indicate that TILLING is a broadly applicable and efficient reverse-genetic strategy. We are establishing a public TILLING service for maize modeled on the existing Arabidopsis TILLING Project.

Published
2004
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