grant

Regulation of cardiac patterning via Akirin/NuRD Interactions

Organization KENNESAW STATE UNIVERSITYLocation KENNESAW, UNITED STATESPosted 5 Sept 2022Deadline 31 Aug 2026
NIHUS FederalResearch GrantFY20220-4 weeks oldATAC-seqATACseqAddressAffectAllelesAllelomorphsAssayAwardBasal Transcription FactorBasal transcription factor genesBioassayBiochemicalBiologic AssaysBiological AssayBiomedical ResearchBirthBirth DefectsCHD4CHD4 geneCandidate Disease GeneCandidate GeneCardiacCardiac AbnormalitiesCardiac MalformationCardiac defectCardiac developmentChIP assayChromatinChromatin Remodeling ComplexChromatin Remodeling FactorChromodomain Helicase DNA-Binding Protein 4CollaborationsComplexCongenital AbnormalityCongenital Anatomic AbnormalityCongenital Anatomical AbnormalityCongenital Cardiac DefectsCongenital DefectsCongenital DeformityCongenital Heart DefectsCongenital MalformationDataDeacetylaseDefectDestinationsDevelopmentDevelopmental GeneDiseaseDisorderDrosophilaDrosophila genusDrosophila melanogasterEmbryoEmbryo DevelopmentEmbryogenesisEmbryonicEmbryonic DevelopmentEmbryonic HeartEnhancersEnvironmentFacultyFamilyFemaleFetal healthFundingFutureGene ExpressionGeneral Transcription Factor GeneGeneral Transcription FactorsGenesGeneticGenetic ProcessesGenetic TechnicsGenetic TechniquesGoalsHalo EffectsHeartHeart AbnormalitiesHeart MalformationHistologicHistologicallyHistonesHumanImaging ProceduresImaging TechnicsImaging TechniquesIncidenceInsectaInsectsInsects InvertebratesInstitutionInvestigatorsLaboratoriesLaboratory ResearchLearningLive BirthMammaliaMammalsMentorsMethodsMi2-BetaMicroscopicModern ManMolecularMolecular GeneticsMorphogenesisMuscleMuscle TissueNational Institutes of HealthNatureNewborn InfantNewbornsNuclear ProteinNucleosomesParturitionPathway interactionsPatternPersonal SatisfactionPhysiologicPhysiologicalPlayPopulationPreventionProcessProteinsRNA SeqRNA sequencingRNAseqRegulationRegulator GenesResearchResearch PersonnelResearchersRoleSTEM classSTEM courseSTEM disciplineSTEM fieldSTEM majorStructureStudentsTechniquesTimeTrainingTranscriptTranscription Factor Proto-OncogeneTranscription factor genesTranscriptional Regulatory ElementsUnderrepresented GroupsUnderrepresented PopulationsUnited States National Institutes of HealthUniversitiesVertebrate AnimalsVertebratesWorkbasecardiogenesiscareerchromatin immunoprecipitationchromatin modifierchromatin remodelingcofactorcongenital cardiac abnormalitycongenital cardiac anomaliescongenital cardiac diseasecongenital cardiac disordercongenital cardiac malformationcongenital heart abnormalitycongenital heart anomalycongenital heart diseasecongenital heart disordercongenital heart malformationdevelopmentaldifferential expressiondifferentially expressedembryo heartexperiencefruit flygene locusgenetic locusgenomic locusheart defectheart developmentheart formationinnovateinnovationinnovativemembermorphogenetic processmuscularmutantmyogenesisnegative affectnegative affectivitynewborn childnewborn childrennext generationnovelpathwaypreventpreventingprogramsregulatory genescience, technology, engineering and math classscience, technology, engineering and math coursescience, technology, engineering and math disciplinescience, technology, engineering and math fieldscience, technology, engineering and math majorscience, technology, engineering and mathematics classscience, technology, engineering and mathematics coursescience, technology, engineering and mathematics disciplinescience, technology, engineering and mathematics fieldscience, technology, engineering and mathematics majorskeletalskillssocial rolesuccesstrans acting elementtranscription factortranscriptional differencestranscriptome sequencingunder representation of groupsunder represented groupsunder represented peopleunder represented populationsundergradundergraduateundergraduate researchundergraduate studentunderrepresentation of groupsunderrepresented peoplevertebratawell-beingwellbeing
Sign up free to applyApply link · pipeline · email alerts
— or —

Get email alerts for similar roles

Weekly digest · no password needed · unsubscribe any time

Full Description

Project Summary
Congenital heart defects are the most prevalent birth defects in the human population, with an incident rate as
high as 10 in 1000 live births. A significant number of these cases are termed sporadic, which are largely the
result of interactions between a number of independent genetic loci and alleles. To aid in our understanding of
the polygenic nature of congenital heart defects, it remains imperative to continue to identify new gene
regulatory partners that may play a role in the process of embryonic heart patterning. Our laboratory has
recently identified a cofactor, Akirin, that is responsible for interfacing transcription factor activity with chromatin
remodeling machinery to facilitate gene expression. Importantly, Akirin appears to play a role in the proper
patterning and morphogenesis of the embryonic heart in Drosophila melanogaster. Excitingly, our preliminary
data suggests that Akirin likely regulates insect embryonic heart development through interactions with the
CHD4/NuRD family of chromatin remodeling machinery. This mechanism of Akirin/NuRD interactions for
expression of cardiac developmental gene pathways appears to be conserved from mammals to insects.
To further determine the role of Akirin/NuRD interactions in the process of heart development, we propose two
specific aims: 1) Using a combination of genetic, biochemical, and live imaging techniques, will confirm the
importance of Akirin/NuRD interactions during development, and 2) We will employ both next-generation
massively parallel RNA sequencing methods, as well as ATAC-seq and conventional chromatin
immunoprecipitation methods to determine the gene regulatory role of Akirin during cardiac myogenesis. This
work will provide key data for understanding the role of Akirin in the process of heart formation, and provide a
new avenue for studying and/or preventing causes of congenital heart defects.
Critically, in keeping with the goals of the AREA award mechanism, this project will give undergraduate
researchers hands-on experience in a wide variety of molecular, genetic, histological, microscopic, and
biochemical techniques, which will provide a valuable skill set for a future career in biomedical research.

Grant Number: 1R15HL161738-01A1
NIH Institute/Center: NIH
Principal Investigator: Anton Bryantsev

Sign up free to get the apply link, save to pipeline, and set email alerts.

Sign up free →

Agency Plan

7-day free trial

Unlock procurement & grants

Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.

$29.99 / month

  • 🔔Email alerts for new matching tenders
  • 🗂️Track tenders in your pipeline
  • 💰Filter by contract value
  • 📥Export results to CSV
  • 📌Save searches with one click
Start 7-day free trial →

Explore more

📍 More grants in UNITED STATES🏷 More NIH opportunities🏷 More US Federal opportunities🏷 More Research Grant opportunities🏢 All nih_reporter opportunities