Embed Size (px)
Citation preview
References:
JoelA.Velasco1,2,MauricioA.Reynoso3,GermainPauluzzi3&JuliaBailey-Serres31:CenterforPlantCellBiologyREUSite:ResearchExperienceforUndergraduatesinNextGeneraKonPlantCellBiology.
DepartmentofBotanyandPlantSciences,UniversityofCaliforniaatRiverside2:DepartmentofBiologicalSciences,BoiseStateUniversity,Boise,ID
3:CenterforPlantCellBiology,DepartmentofBotanyandPlantSciences,UniversityofCaliforniaatRiverside
It’saTRAP!ConfirmingEfficiencyofRiceLinesDevelopedforCell-typeSpecificGeneExpressionAnalysis
(1)IntroducIon
(4)TRAPandINTACTricelines
● INTACTandTRAPtechnologiescoupledwithbioinformaKcanalysistoolsallowforcell-typespecificgeneexpressionanalysis(Bailey-Serres,2013)
(5)Workflow
Thisworkissupportedby:-NSFREU-1461297-NSFDBI-PGRP-1238243
Bailey-Serres, J. (2013). Microgenomics: Genome-Scale, Cell-Specific Monitoring of Multiple Gene Regulation Tiers. Annual Review of Plant Biology 64, 293–325. Mustroph, A., Zanetti, M.E., Jang, C.J.H., Holtan, H.E., Repetti, P.P., Galbraith, D.W., Girke, T., and Bailey-Serres, J. (2009). Profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis. Proc Natl Acad Sci U S A 106, 18843–18848. Deal, R.B., and Henikoff, S. (2010). A Simple Method for Gene Expression and Chromatin Profiling of Individual Cell Types within a Tissue. Developmental Cell 18, 1030–1040.
Yuxiu, Z., Zi, W., and Jin, X. (2007). Molecular mechanism of dehydrin in response to environmental stress in plant. Progress in Natural Science 17, 237–246. Ranathunge, K., Schreiber, L., Bi, Y.-M., and Rothstein, S.J. (2015). Ammonium-induced architectural and anatomical changes with altered suberin and lignin levels significantly change water and solute permeabilities of rice (Oryza sativa L.) roots. Planta 243, 231–249.
Contactinfo:[email protected]
● TransgenicricelinesdevelopedtoexpresstheINTACTandTRAPconstructsdrivenbycell-typespecificpromotersfacilitateaccesstonuclearorpolysomeassociatedmRNApopulaIonsfromspecificcell-types
● HereweinterrogateapreliminaryNGS(nextgeneraKonsequencing)datasetgeneratedfromTRAPandINTACTriceplants(3week-old)inordertoevaluatecell-typespecificgeneexpressioninresponsetowaterstress
MeristemaKczone
QC
(3)TRAPandINTACTTechnologies IsolaIonofNucleiTaggedinSpecificCellTypes(INTACT)
• IsolaIonofnucleifromspecificcelltypes
TranslaIngRibosomeAffinityPurificaIon(TRAP)
• AccesstonuclearchromaInandpre-mRNA
• AccesstopolysomalmRNA
• INTACTconstructmakesthispossible
• IsolaIonoftranslaIngribosomesfromspecificcelltypes
• TRAPconstructmakesthispossible
ER
Pre-mRNA
ChromaKn
mRNA
AAAA…
AAAA…
Cytosol
BioKn-taggedproteinassociatedtonuclearenvelope(NTF)
Nucleartaggingfusion(NTF) INTACT
PolysomalmRNA
RPL18-FLAGLargeribosomalsubunitRPL18taggedwithFLAG
Y
mRNA
AAAA…
TRAP
● InthispilotstudyweevaluatetheefficiencyofTRAPandINTACTricelinesdevelopedforcell-typespecificgeneexpressionanalysis.
WPP GFP BLRPPromoter
HF GFP OsRPL18Promoter
CMZ
(6)DatacollecIonandNGSdataanalysisusingbioinformaIctools
(7)HeatmapandIGVgeneexpressionanalysis
75µm
● Rice(Oryzasa(va)isanimportantglobalcropspeciesthreatenedbytheunpredictabilityoffuturefloodsanddroughtsbroughtonbyglobalclimatechange
(2)Predictedchangeinfloodingfrequencyinthe21stcentury
EED
NatureClimateChangeHirabayashietal.,2013
E F
C DA
B
Epidermis
Sclerenchyma
Vasculature
Cortex
Endodermis
Pericycle
Exodermis
1.TRAPandINTACTtransgenicricelinedevelopment.GFPlocalizaKon inembryonicnodalroots(7day-oldseedlings).A-B:Cortex INTACT line.CloseupoftherootKp(focusedonthe lastcorKcalcelllayer) shows the localizaKonof theNTF (Nuclear Tagging Fusion) to thenuclearenvelope.C-D: TRAPRSS1 (RICE SALT SENSITIVE1) promoter totargetacKvelydividingcells.E-F:INTACTQHB1(QuiescentCenterSpecificHomeobox)promotertotargetquiescentcenter,GFPislocalizedinthequiescentcenter:Scale:A-D:50µmandE-F:25µm
(5)Transgenicricelinetreatments Waterlogging
Drought
Treatment
ControlCell type and technology
Shoot apical meristem (TRAP & INTACT)
Root cortex meristematic zone (TRAP)
Root endodermis meristematic zone (TRAP)
Root dividing cells (TRAP)
Root endodermis differentiated zone (TRAP)
Quiescent center (TRAP)
Endodermis/exodermis differentiated zone (TRAP)
Total mRNA (RNAseq)
Cell type and technology
Endodermis/exodermis differentiated zone (TRAP)
Total Drought mRNA (RNAseq)
Cell type and technology
Endodermis/exodermis differentiated zone (TRAP)
5days
5days
TissuecollecIon(cryopreserved)
TRAPandINTACTproceduresforRNAcapturefromspecificcell
types
IlluminacompaIblelibrarypreparaIon
SequencingonIlluminaHiSeq3000
1x50bpreads(7-10millionpersample)
Quality Control
Qualitycontrolledreads
fastqc module
Filtering and clipping
Filteredreads,oligosandsequencingadaptersremoved
fastq-grep fastx-clipper
Alignment
ReadsalignedtoreferenceOryzasa(vacv.Nipponbaregenome
Tophat2 alignment module
Counting, normalization, clustering, and
heatmap
100clusterheatmap&IGV(integraIvegenomicsviewer)filesgenerated
summarizeoverlaps function, PAM clustering, and
pheatmap package
TRAP Shoot apical meristem (Control)
INTACT shoot apical meristem (Control)
TRAP endo/exodermis (Control)
TRAP endo/exodermis (Waterlogged)
TRAP endo/exodermis (Drought)
Total mRNA (Drought)
TRAP endodermis meristematic zone (Control)
TRAP cortex meristematic zone (Control)
TRAP endodermis meristematic zone (Control)
TRAP quiescent center (Control)
TRAP dividing cells (Control)
Total mRNA (Control)
LOC_Os11g26790.1
Total drought
Total control
Endo/exodermis drought TRAP
Endo/exodermis waterlogged TRAP
Endo/exodermis control TRAP
15,343,000 bp 15,336,500 bp
LOC_Os11g26780.1 LOC_Os11g26760.1
15,328,500 bp
LOC_Os11g26750.1
15,321,000 bp
LOC_Os11g26570.1
15,224,000 bp
LOC_Os06g21590.2
12,453,000 bp 12,454,000 bp
(8)ConclusionsandfuturedirecIons
Total drought
Total control
Endo/exodermis drought TRAP
Endo/exodermis waterlogged TRAP
Endo/exodermis control TRAP
Shoot apical meristem TRAP
Shoot apical meristem INTACT
Endodermis differentiated control
TRAP
Endodermis meristematic control
TRAP
Cortex meristematic control TRAP
Dividing cells control TRAP
Quiescent center control TRAP
21,512 kb
LOC_Os08g34280.1
21,508 kb
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
[0-200]
LOC_Os11g31090.1
18,095,000 bp 18,093,000 bp
Dehydrins: Water stress induced, water soluble proteins (Yuxiu et al., 2007)
Genes implicated in the production of lignin and suberin respectively (Ranathunge et al., 2015)
● ThevisualizaKonofthesametranscriptinitspre-mRNAandribosomeassociatedmRNAformsupportstheideathatTRAPandINTACTtechnologiescanbeusedtoisolatedifferentRNApopulaKonswithinspecificcelltypes
[0-10,000]
[0-10,000]
[0-10,000]
[0-10,000]
[0-10,000]
[0-2,000]
[0-2,000]
[0-2,000]
[0-2,000]
[0-2,000]
[0-3,000]
[0-3,000]
[0-3,000]
[0-3,000]
[0-3,000]
[0-6,000]
[0-6,000]
[0-6,000]
[0-6,000]
[0-6,000]
[0-4,000]
[0-4,000]
[0-4,000]
[0-4,000]
[0-4,000]
Total drought
Total control
Endo/exodermis drought TRAP
Endo/exodermis waterlogged TRAP
Endo/exodermis control TRAP
Shoot apical meristem TRAP
Shoot apical meristem INTACT
Endodermis differentiated control
TRAP
Endodermis meristematic control
TRAP
Cortex meristematic control TRAP
Dividing cells control TRAP
Quiescent center control TRAP
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
[0-50]
● ThispilotstudyconfirmstheefficiencyofTRAPandINTACTtechnologieswithinthesericelineswhichwillbeusedinfuture,morecomprehensiveanalyses
● Waterstressinducedgenesvisualizedinbothtotalandendodermis/exodermisspecificsampleshelpconfirmtheefficiencyofthesetechnologies
Chlorophyll A-B binding protein
