Difference between revisions of "Computational Regulatory Genomics"

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[/sciencetech/article-7673627/Finding-Nemo-fish-uses-ability-ultraviolet-light-friends.html Clownfish] educate their device characteristic white person chevron at dissimilar speeds depending on the typewrite of sea anemone in which they live, a study has constitute.<br>Made far-famed by '[/sciencetech/article-8117233/Australian-fish-breeders-try-reverse-plummeting-clownfish-population-Great-Barrier-Reef.html Finding Nemo]', the iconic reef-dwellers get their stripes — or 'bars' — as they see the transfiguration that turns them from larvae to adults.<br>Experts surveyed clownfish in Papua Modern Guinea's Kimbe Bay, where they alive either in the magnificent ocean windflower or the to a greater extent toxic titan rug anemone.<br>They noticed that the juvenile clownfish that lived in the giant carpet anemone got their white person parallel bars quicker than those career the magnificent ocean anemone home base.<br>Lab-based tests and genetical analysis joined these differences to endocrine hormones and a factor named duox, which English hawthorn be excited Sir Thomas More by the Thomas More toxic sea anemone.<br>        Clownfish (pictured) originate their characteristic white person stripes at different speeds depending on the type of sea anemone in which they live, a analyse has found<br>        Experts surveyed clownfish in Papua Fresh Guinea's Kimbe Bay, where they subsist either in the brilliant sea sea anemone or the more than toxic behemoth rug sea anemone.<br><br>They noticed that the juvenile clownfish that lived in the heavyweight rug windflower (right) got their lily-white parallel bars quicker than those career the magnificent ocean windflower home plate (left over — with both angle beingness of exchangeable ages)<br>'Metabolism is an important cognitive process for  [http://www.bsaa.edu.ru/bitrix/rk.php?goto=https://www.123movies.democrat/movies/ movies reviews] clownfish,' aforementioned wallpaper generator and marine man of science Vincent Laudet of the Okinawa Plant of Skill and Applied science Postgraduate University.<br>'It changes their show and likewise the environment they survive in, as clownfish larvae leave aliveness in the exposed ocean and settle in the reef.'<br>'Intellect how transfiguration changes depending on the sea anemone host rear supporter us response questions non entirely some how they accommodate to these different environments,' he continued.<br>'Merely too how they mightiness be moved by early environmental pressures, comparable mood change,' he complete. <br>  Germane ARTICLES [# Previous] [# 1] [# Next]    [/sciencetech/article-9605563/Best-entries-far-2021-Comedy-Wildlife-Photography-Awards-revealed.html  From a pouting boxfish to a giggling lion: Best entries so... ] [/sciencetech/article-9596709/420-million-year-old-fish-four-legs-predates-dinosaurs-alive-Africa.html  A new population of 420-million-year-old fish with four legs... ] [/sciencetech/article-9594975/Toxic-flame-retardants-discovered-blubber-KILLER-WHALES-time.html   Toxic flame retardants linked to infertility and hormone... ] [/sciencetech/article-9589347/Monster-deep-Anglerfish-lifeless-glaze-pointed-teeth-washes-California-beach.html  Monster from the deep! Anglerfish that lures prey with a... ]   <br><br><br><br>Ploughshare this article<br>Share<br><br><br>'We were truly interested in understanding non merely why blockade formation occurs quicker or slower depending on the ocean anemone, merely too what drives these differences,' explained newspaper publisher author Pauline Salis of the University of Paris University in Genus Paris.<br>In their research lab experiments, the team up worked with a specific clownfish species called Amphiprion ocellaris — a ending congeneric of the the Amphiprion percula they deliberate hit the glide of Papua Raw Guinea.<br>In particular, the researchers focused on thyroid hormones, which are known to activate the transfiguration work on in frogs.<br>Injecting brute clownfish with different doses, the team establish that whiteness bars developed quicker in the precense of greater hormone levels — and, conversely, that measure constitution slowed when the fish's hormone product was inhibited. <br>The researchers explained that the hormones spark off the genes explicit by pigment cells called 'iridophores' that are creditworthy for exclude growth.<br>        Injecting larval clownfish with different doses, the team constitute that Caucasian bars highly-developed faster in the precense of greater endocrine levels.<br><br>Pictured: a beast clownfish (top) and one fin years afterward it was disposed an injectant of thyroid hormones (bottom), viewing stop formation<br>Returning to Kimbe Bay, the squad sampled juvenile clownfish from both the goliath carpeting and magnificent sea anemones — and launch that thyroid endocrine levels were a great deal higher in the Fish WHO lived in the giant rug sea anemone.<br>While this explained the quicker growing of bars in the clownfish that ill-used the giant star carpet sea anemone as a host, the researchers wanted to sleep with wherefore these angle had higher levels of thyroid hormones.<br>Measurement the natural process of respective genes in the clownfish genome, the team base their resolution. <br><br>'The vauntingly surprisal was that extinct of wholly these genes, lone 36 genes differed 'tween the clownfish from the deuce ocean windflower species,' aforesaid Professor Laudet.<br>'And matchless of these 36 genes, known as duox, gave us a material constantan second.'<br>Duox was Sir Thomas More dynamic in clownfish from the giant rug windflower than those from the magnificent ocean anemone — and the gene encodes for a protein called dual oxidase, which former inquiry has linked to the shaping of thyroid hormones. <br>         'We were actually concerned in apprehension non only if wherefore BAR constitution occurs faster or slower depending on the ocean anemone, simply also what drives these differences,' explained wallpaper generator Apostle Salis of the Paris University University in Paris<br>In boost science laboratory experiments, the team were capable to substantiate that duox plays an of import character in the evolution of the iridophore pigment cells — and, in mutation zebrafish, this physical process is delayed when the duox cistron is inactivated. <br>Founded on their findings, the squad concluded, it would seem that the increased action of duox in clownfish keep in the giant carpet windflower results in higher levels of endocrine gland hormones, promoting faster iridophore and Patrick White legal community ontogenesis. <br>What corpse unclear, however, is what triggers the increased natural process of duox in the low rate — with the team up speculating it May bear something to do with the emphasis reply to the greater perniciousness of the giant carpeting windflower.<br>'We're starting to delve into around potential explanations,' Professor Laudet said. <br>'We suspect that these changes in White blockade shaping are scarce the tumble of the iceberg, and that many other differences are represent that assist the clownfish adjust to the two different ocean windflower hosts.<br>The full phase of the moon findings of the meditate were promulgated in the daybook [ ].<br>         Experts surveyed clownfish in Papua Novel Guinea's Kimbe Bay, where they inhabit either in the magnificent sea sea anemone or the to a greater extent toxic titan rug anemone<br>       <div class="art-ins mol-factbox sciencetech" data-version="2" id="mol-7c694ee0-bcb9-11eb-9637-3567d5d42a3b" website stripes develop differently depending on their host anemone
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<h2>Computational Regulatory Genomics</h2>  __NOTOC__  __NOTITLE__
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<metadesc>Computational Regulatory Genomics for graduate PhD and postdoctoral research in BME and IGM at Johns Hopkins, top ranking programs modeling DNA and systems biology.</metadesc>
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<h3>[[Recent News  ]]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;[[Lab Members  ]]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;  [[Publications]]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; [[Postdoctoral Positions Available]]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; [[Resources]]</h3>
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[[File:Beer_Michael_small.jpg|link=http://www.bme.jhu.edu/people/faculty/michael-beer/]] [[File:EncodeNatureGraphic_small.png]] [[File:dyn_net.gif]]
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We are in the '''[http://www.bme.jhu.edu/people/faculty/michael-beer/ Department of Biomedical Engineering]''' and the '''[https://www.hopkinsmedicine.org/profiles/results/directory/profile/8377361/michael-beer McKusick-Nathans Department of Genetic Medicine]''' at Johns Hopkins University. You can apply for graduate study in my lab through '''[http://www.bme.jhu.edu/people/faculty/michael-beer/ BME]''' or the Ph.D. program in '''[https://www.hopkinsmedicine.org/profiles/results/directory/profile/8377361/michael-beer Human Genetics.]'''
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<h3>Research Interests: </h3> The ultimate goal of our research is to understand how gene regulatory information is encoded in genomic DNA sequence.
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We have recently made significant progress in understanding how DNA sequence features specify cell-type specific mammalian enhancer activity using machine learning, and how enhancer-gene networks control cell-fate decisions and contribute to human disease. For details, see:
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* '''[https://www.annualreviews.org/doi/abs/10.1146/annurev-genom-121719-010946?journalCode=genom Enhancer Predictions and Genome-Wide Regulatory Circuits.]''' Beer MA, Shigaki D, Huangfu DAnn. Rev. Genomics and Human Genetics 2020.
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* '''[https://www.nature.com/articles/s41588-019-0408-9 Genome-scale screens identify JNK–JUN signaling as a barrier for pluripotency exit and endoderm differentiation. ]'''  Li Q, et al. Nature Genetics 2019.
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* '''[http://onlinelibrary.wiley.com/doi/10.1002/humu.23185/full Predicting enhancer activity and variant impact using gkm-SVM.]''' Beer, MA. Human Mutation 2017.
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* '''[http://www.nature.com/ng/journal/vaop/ncurrent/full/ng.3331.html A method to predict the impact of regulatory variants from DNA sequence.]''' Lee D, Gorkin DU, Baker M, Strober BJ, Asoni AL, McCallion AS, Beer, MA. Nature Genetics 2015.
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* '''[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003711 Enhanced Regulatory Sequence Prediction Using Gapped k-mer Features.]''' Ghandi M, Lee D, Mohammad-Noori M, and Beer MA.  2014. PLOS Computational Biology. July 17, 2014.
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and other [[Publications]].
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Our work uses functional genomics DNase-seq, ATAC-seq, ChIP-seq, RNA-seq, MPRA, Hi-C, and chromatin state data to computationally identify combinations of transcription factor binding sites which operate to define the activity of cell-type specific enhancers. We are currently focused on:
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* improving machine learning algorithms by including more general sequence features and constraints
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* predicting the impact of SNPs on enhancer activity (delta-SVM) and GWAS association for specific diseases
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* experimentally assessing the predicted impact of regulatory element mutation in mammalian cells
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* systematically determining regulatory element logic from ENCODE human and mouse data
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* using this sequence based regulatory code to assess common modes of regulatory element evolution and variation
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We are located in the McKusick-Nathans Institute of Genetic Medicine, and the Department of Biomedical Engineering, which has long been a leader in the development of rigorous quantitative modeling of biological systems, and is a natural home for graduate studies in Genomics, Bioinformatics, and Computational Biology at Johns Hopkins, including research in Systems Biology, Machine Learning, and Network Modeling.
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<h3>About Computational Biology in JHU Biomedical Engineering:</h3>
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The Department of Biomedical Engineering has long been a leader in the development of rigorous quantitative modeling of biological systems, and is a natural home for graduate studies in Bioinformatics and Computational Biology at Johns Hopkins. Students with backgrounds in Physics, Mathematics, Computer Science and Engineering are encouraged to apply. Opportunities for research include: Computational Medicine, Genomics, Systems Biology, Machine Learning, and Network Modeling. Graduate students in Johns Hopkins' Biomedical Engineering programs can select research advisors from throughout Johns Hopkins' Medical Institutions, Whiting School of Engineering, and Krieger School of Arts and Sciences.
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<h3>[http://karchinlab.org/bme-compbio-jhu Visit Some Computational Labs at Johns Hopkins]</h3>
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<h3>[http://ccb.jhu.edu/ Center for Computational Biology at Johns Hopkins]</h3>
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Revision as of 18:22, 26 May 2021

Computational Regulatory Genomics

Recent News      Lab Members       Publications      Postdoctoral Positions Available      Resources

Beer Michael small.jpg EncodeNatureGraphic small.png Dyn net.gif

We are in the Department of Biomedical Engineering and the McKusick-Nathans Department of Genetic Medicine at Johns Hopkins University. You can apply for graduate study in my lab through BME or the Ph.D. program in Human Genetics.

Research Interests:

The ultimate goal of our research is to understand how gene regulatory information is encoded in genomic DNA sequence.

We have recently made significant progress in understanding how DNA sequence features specify cell-type specific mammalian enhancer activity using machine learning, and how enhancer-gene networks control cell-fate decisions and contribute to human disease. For details, see:

and other Publications.

Our work uses functional genomics DNase-seq, ATAC-seq, ChIP-seq, RNA-seq, MPRA, Hi-C, and chromatin state data to computationally identify combinations of transcription factor binding sites which operate to define the activity of cell-type specific enhancers. We are currently focused on:

  • improving machine learning algorithms by including more general sequence features and constraints
  • predicting the impact of SNPs on enhancer activity (delta-SVM) and GWAS association for specific diseases
  • experimentally assessing the predicted impact of regulatory element mutation in mammalian cells
  • systematically determining regulatory element logic from ENCODE human and mouse data
  • using this sequence based regulatory code to assess common modes of regulatory element evolution and variation

We are located in the McKusick-Nathans Institute of Genetic Medicine, and the Department of Biomedical Engineering, which has long been a leader in the development of rigorous quantitative modeling of biological systems, and is a natural home for graduate studies in Genomics, Bioinformatics, and Computational Biology at Johns Hopkins, including research in Systems Biology, Machine Learning, and Network Modeling.

About Computational Biology in JHU Biomedical Engineering:

The Department of Biomedical Engineering has long been a leader in the development of rigorous quantitative modeling of biological systems, and is a natural home for graduate studies in Bioinformatics and Computational Biology at Johns Hopkins. Students with backgrounds in Physics, Mathematics, Computer Science and Engineering are encouraged to apply. Opportunities for research include: Computational Medicine, Genomics, Systems Biology, Machine Learning, and Network Modeling. Graduate students in Johns Hopkins' Biomedical Engineering programs can select research advisors from throughout Johns Hopkins' Medical Institutions, Whiting School of Engineering, and Krieger School of Arts and Sciences.

Visit Some Computational Labs at Johns Hopkins

Center for Computational Biology at Johns Hopkins

Bmesmall.png

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