Welcome to Acta Agronomica Sinica,

Acta Agron Sin ›› 2016, Vol. 42 ›› Issue (11): 1629-1637.

• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles     Next Articles

Cloning and Functional Analysis of Peanut Δ9-Stearoyl-Acyl Carrier Protein Desaturase Promoter

SHI Lei, MIAO Li-Juan, QI Fei-Yan, ZHANG Zhong-Xin, GAO Wei, SUN Zi-Qi, HUANG Bing-Yan, DONG Wen-Zhao, TANG Feng-Shou, and ZHANG Xin-You*   

  1. Industrial Crops Research Institute, Henan Academy of Agricultural Sciences / Key Laboratory of Oil Crops in Huanghuaihai Plains, Ministry of Agriculture / Henan Provincial Key Laboratory for Oil Crops Improvement, Zhengzhou 450002, China
  • Received:2016-02-29 Revised:2016-07-11 Online:2016-11-12 Published:2016-08-11
  • Contact: Zhang Xinyou,E-mail:haasz@126.com,Tel:0371-65729560 E-mail:leis100@163.com
  • Supported by:
    This study was supported by National High-Tech R&D Program of China (863 Program) (2013AA102602-6), the Key Project of Science and Technology of Henan Province (141100110600), the China Agriculture Research System (CARS-14), the Henan Provincial Agriculture Research System (S2012-5), and the Scientific Foundation for Excellent Young Scholars of Henan Academy of Agricultural Sciences (2013YQ11).

RichHTML

PDF

1090

Abstract:

The Δ9-stearoyl-acyl carrier protein desaturase (SAD) plays key roles in determining the ratio of saturated to unsaturated fatty acids in higher plants. The 720 bp 5′ flanking sequence of peanut SAD (AhSAD) gene was isolated from the genomic DNA of peanut cultivar Yuhua 9326 by nested PCR using genomic walking method. The fragment of 5′ UTR was obtained using 5′ RACE (Rapid Amplification of cDNA End), confirming that the 720 bp 5′ flanking sequence is promoter fragment based on sequence alignments. Bioinformatics analysis indicated that AhSAD promoter contained several light, hormone responsive elements and enhancer-like elements as well as CAAT box and TATA box. To study the function of this promoter, we constructed a binary expression vector pBI-PAhSAD by replacing CaMV35S promoter of pBI121 with the AhSAD promoter, which was introduced into Arabidopsis and transiently expressed in peanut, respectively, by Agrobacterium-mediated transformation. Histochemical staining analysis showed that the GUS gene mainly expressed in roots, stem, leaves, cotyledon and peanut pegs. The histochemical staining was observed in peanut whole leaves, while only in Arabidopsis veins of cauline leaves.

Key words: Peanut(Arachis hypogaea L.), Δ9-Stearoyl-ACPdesaturase(SAD), Promoter, Genomicwalking, GUSreportergene

[1]SchwingshacklL,HoffmannG.Monounsaturatedfattyacidsandriskofcardiovasculardisease:synopsisoftheevidenceavailablefromsystematicreviewsandmeta-analyses.Nutrients,2012,4:1989–2007 [2]O’ByrneDJ,KnauftDA,ShiremanRB.Lowfat–monounsaturatedrichdietscontaininghigh-oleicpeanutsimproveserumlipoproteinprofiles.Lipids,1997,32:687–695 [3]CarrilloC,CaviaMdM,RoelofsH,WantenG,Alonso-TorreSR.Activationofhumanneutrophilsbyoleicacidinvolvestheproductionofreactiveoxygenspeciesandariseincytosoliccalciumconcentration:acomparisonwithN-6polyunsaturatedfattyacids.CellPhysiolBiochem,2011,28:329–338 [4]CarrilloC,CaviaMM,Alonso-TorreS.Roleofoleicacidinimmunesystem;mechanismofaction;areview.NutrHosp,2012,27:978–90 [5]DerbyshireEJ.Areviewofthenutritionalcomposition,organolepticcharacteristicsandbiologicaleffectsofthehigholeicpeanut.IntJFoodSciNutr,2014,65:1–10 [6]O’KeefeSF,WileyVA,KnauftDA.Comparisonofoxidativestabilityofhigh-andnormal-oleicpeanutoils.JAOCS,1993,70:489–492 [7]PatteeHE,IsleibTG,MooreKM,GorbetDW,GiesbrechtFG.Effectofhigh-oleictraitandpastestoragevariablesonsensoryattributestabilityofroastedpeanuts.JAgricFoodChem,2003,50:7366–7370 [8]BoltonGE,SandersTH.Effectofroastingoilcompositiononthestabilityofroastedhigh-oleicpeanuts.JAOCS,2002,79:129–132 [9]LindqvistY,HuangW,SchneiderG,ShanklinJ.CrystalstructureofΔ9stearoyl-acylcarrierproteindesaturasefromcastorseedanditsrelationshiptootherdi-ironproteins.EMBOJ,1996,15:4081–4092 [10]KachrooA,ShanklinJ,WhittleE,LapchykL,HildebrandD,KachrooP.TheArabidopsisstearoyl-acylcarrierprotein-desaturasefamilyandthecontributionofleafisoformstooleicacidsynthesis.PlantMolBiol,2007,63:257–271 [11]JungS,TatePL,HornR,KochertG,MooreK,AbbottAG.Thephylogeneticrelationshipofpossibleprogenitorsofthecultivatedpeanut.JHered,2003,94:334–340 [12]RuddlePII,WhettenR,CardinalA,UpchurchRG,MirandaL.EffectofanovelmutationinaΔ9-stearoyl-ACP-desaturaseonsoybeanseedoilcomposition.TheorApplGenet,2013,126:241–249 [13]SlocombeSP,PiffanelliP,FairbairnD,BowraS,HatzopoulosP,TsiantisM,MurphyDJ.Temporalandtissue-specificregulationofaBrassicanapusstearoyl-acylcarrierproteindesaturasegene.PlantPhysiol,1994,104:1167–1176 [14]LuoT,PengS,DengW,MaD,XuY,XiaoM,ChenF.Characterizationofanewstearoyl-acylcarrierproteindesaturasegenefromJatrophacurcas.BiotechnolLett,2006,28:657–662 [15]GuoZF,LiFZ,MaXG,LinF,MaH,ChenLJ,ZhongM,BaiLP,YiY.Molecularcloningoftwonovelstearoyl-acyldesaturasegenesfromwinternesswheat.GenesGenom,2011,33:583–589 [16]RameshAM,KesariV,RanganL.Characterizationofastearoyl-acylcarrierproteindesaturasegenefrompotentialbiofuelplant,PongamiapinnataL.Gene,2014,542:113–121 [17]LuoT,DengWY,ZengJ,ZhangFL.Cloningandcharacterizationofastearoyl–acylcarrierproteindesaturasegenefromCinnamomumlongepaniculatum.PlantMolBiolRep,2009,27:13–19 [18]WangH,CaoF,ZhangW,WangG,YuW.Cloningandexpressionofstearoyl-ACPdesaturaseandtwooleatedesaturasesgenesfromGinkgobilobaL.PlantMolBiolRep,2012,31:633–648 [19]GaoL,SunR,LiangY,ZhangM,ZhengY,LiD.CloningandfunctionalexpressionofacDNAencodingstearoyl-ACPΔ9-desaturasefromtheendospermofcoconut(CocosnuciferaL.).Gene,2014,549:70–76 [20]RajwadeAV,KadooNY,BorikarSP,HarsulkarAM,GhorpadePB,GuptaVS.DifferentialtranscriptionalactivityofSAD,FAD2andFAD3desaturasegenesindevelopingseedsoflinseedcontributestovarietalvariationinα-linolenicacidcontent.Phytochemistry,2014,98:41–53 [21]ThambugalaD,DuguidS,LoewenE,RowlandG,BookerH,YouFM,CloutierS.Geneticvariationofsixdesaturasegenesinflaxandtheirimpactonfattyacidcomposition.TheorApplGenet,2013,126:2627–2641 [22]ThambugalaD,CloutierS.Fattyacidcompositionanddesaturasegeneexpressioninflax(LinumusitatissimumL.).JApplGenet,2014,55:423–432 [23]ZhangY,MaximovaSN,GuiltinanMJ.Characterizationofastearoyl-acylcarrierproteindesaturasegenefamilyfromchocolatetree,TheobromacacaoL.FrontPlantSci,2015,6:239.doi:10.3389/fpls.2015.00239.eCollection2015 [24]ChiX,YangQ,PanL,ChenM,HeY,YangZ,YuS.Isolationandcharacterizationoffattyaciddesaturasegenesfrompeanut(ArachishypogaeaL.).PlantCellRep,2011,30:1393–1404 [25]KlinkenbergJ,FaistH,SaupeS,LambertzS,KrischkeM,StinglN,FeketeA,MuellerMJ,FeussnerI,HedrichR,DeekenR.Twofattyaciddesaturases,STEAROYL-ACYLCARRIERPROTEINΔ9-DESATURASE6andFATTYACIDDESATURASE3,areinvolvedindroughtandhypoxiastresssignalinginArabidopsiscrowngalls.PlantPhysiol,2014,164:570–583 [26]SlocombeSP,CumminsI,JarvisRP,MurphyDJ.Nucleotidesequenceandtemporalregulationofaseed-specificBrassicanapuscDNAencodingastearoyl-acylcarrierprotein(ACP)desaturase.PlantMolBiol,1992,20:151–155 [27]ZhaoN,ZhangY,LiQ,LiR,XiaX,QinX,GuoH.Identificationandexpressionofastearoyl-ACPdesaturasegeneresponsibleforoleicacidaccumulationinXanthocerassorbifoliaseeds.PlantPhysiolBiochem,2015,87:9–16 [28]LiuQ,SinghSP,GreenAG.High-stearicandhigh-oleiccottonseedoilsproducedbyhairpinRNA-mediatedpost-transcriptionalgenesilencing.PlantPhysiol,2002,129:1732–43 [29]KachrooA,LapchykL,FukushigeH,HildebrandD,KlessigD,KachrooP.Plastidialfattyacidsignalingmodulatessalicylicacid-andjasmonicacid-mediateddefensepathwaysintheArabidopsisssi2mutant.PlantCell,2003,15:2952–2965 [30]CraigW,LenziP,ScottiN,DePalmaM,SaggeseP,CarboneV,McGrathCurranN,MageeAM,MedgyesyP,KavanaghTA,DixPJ,GrilloS,CardiT.Transplastomictobaccoplantsexpressingafattyaciddesaturasegeneexhibitalteredfattyacidprofilesandimprovedcoldtolerance.TransgenicRes,2008,17:769–782 [31]单雷,唐桂英,徐平丽,赵学彬,柳展基.花生质体型酰基载体蛋白基因5′侧翼调控序列的克隆与分析.作物学报,2014,40:381–389 ShanL,TangGY,XuPL,ZhaoXB,LiuZJ.Cloningandanalysisof5′flankingregionsofArachisishypogaeaL.genesencodingplastidialacylcarrierprotein.ActaAgronSin,2014,40:381–389(inChinesewithEnglishabstract) [32]BrandY,HovavR.Identificationofsuitableinternalcontrolgenesforquantitativereal-timePCRexpressionanalysesinpeanut(Arachishypogaea).PeanutSci,2010,37:12–19 [33]ChuY,HolbrookCC,Ozias-AkinsP.TwoallelesofahFAD2Bcontrolthehigholeicacidtraitincultivatedpeanut.CropSci,2009,49:2029–2036 [34]KodamaH,HoriguchiG,NishiuchiT,NishimuraM,IbaK.Fattyaciddesaturationduringchillingacclimationisoneofthefactorsinvolvedinconferringlow-temperaturetolerancetoyoungtobaccoleaves.PlantPhysiol,1995,107:1177–1185 [35]GengL,DuanX,LiangC,ShuC,SongF,ZhangJ.Miningtissue-specificcontigsfrompeanut(ArachishypogaeaL.)forpromotercloningbydeeptranscriptomesequencing.PlantCellPhysiol,2014,55:1793–1801 [36]LiC,WuK,FuG,LiY,ZhongY,LinX,ZhouY,TianL,HuangS.Regulationofoleosinexpressionindevelopingpeanut(ArachishypogaeaL.)embryosthroughnucleosomelossandhistonemodifications.JExpBot,2009,60:4371–4382 [37]尹梦回,董静,李先碧,侯磊,罗明,李德谋,裴炎,肖月华.烟草绒毡层特异启动子pTA29在棉花中的表达特性.作物学报,2008,34:2092–2098 YinMH,DongJ,LiXB,HuoL,LuoM,LiDM,PeiY,XiaoYH.Expressioncharacteristicsoftobaccotapetum-specificpromoterpTA29incotton.ActaAgronSin,2008,34:2092–2098(inChinesewithEnglishabstract) [38]BelostotskyDA,MeagherRB.Apollen-,ovule-,andearlyembryo-specificpoly(A)bindingproteinfromArabidopsiscomplementsessentialfunctionsinyeast.PlantCell,1996,8:1261–1275 [39]LuoK,DengW,XuS,PeiY.FunctionalanalysisoftheArabidopsisthalianapoly(A)bindingproteinPAB5genepromoterinNicotianatabacum.PlantCellRep,2008,27:1811–1819
[1] ZHOU Yue, ZHAO Zhi-Hua, ZHANG Hong-Ning, KONG You-Bin. Cloning and functional analysis of the promoter of purple acid phosphatase gene GmPAP14 in soybean [J]. Acta Agronomica Sinica, 2022, 48(3): 590-596.
[2] SHI Lei, MIAO Li-Juan, HUANG Bing-Yan, GAO Wei, ZHANG Zong-Xin, QI Fei-Yan, LIU Juan, DONG Wen-Zhao, ZHANG Xin-You. Characterization of the promoter and 5'-UTR intron in AhFAD2-1 genes from peanut and their responses to cold stress [J]. Acta Agronomica Sinica, 2021, 47(9): 1703-1711.
[3] WANG Xiao-Chun, WANG Lu-Lu, ZHANG Zhi-Yong, QIN Bu-Tan, YU Mei-Qin, WEI Yi-Hao, MA Xin-Ming. Transcription characteristics of wheat glutamine synthetase isoforms and the sequence analysis of their promoters [J]. Acta Agronomica Sinica, 2021, 47(4): 761-769.
[4] LI Lan-Lan, MU Dan, YAN Xue, YANG Lu-Ke, LIN Wen-Xiong, FANG Chang-Xun. Effect of OsPAL2;3 in regulation of rice allopathic inhibition on barnyardgrass (Echinochloa crusgalli L.) [J]. Acta Agronomica Sinica, 2021, 47(2): 197-209.
[5] WANG Zhen, ZHANG Xiao-Li, MENG Xiao-Jing, YAO Meng-Nan, MIU Wen-Jie, YUAN Da-Shuang, ZHU Dong-Ming, QU Cun-Min, LU Kun, LI Jia-Na, LIANG Ying. Identification of upstream regulators for mitogen-activated protein kinase 7 gene (BnMAPK7) in rapeseed (Brassica napus L.) [J]. Acta Agronomica Sinica, 2021, 47(12): 2379-2393.
[6] LI Na-Na, LIU Ying, ZHANG Hao-Jie, WANG Lu, HAO Xin-Yuan, ZHANG Wei-Fu, WANG Yu-Chun, XIONG Fei, YANG Ya-Jun, WANG Xin-Chao. Promoter cloning and expression analysis of the hexokinase gene CsHXK2 in tea plant (Camellia sinensis) [J]. Acta Agronomica Sinica, 2020, 46(10): 1628-1638.
[7] Mao-Ni CHAO,Hai-Yan HU,Run-Hao WANG,Yu CHEN,Li-Na FU,Qing-Qing LIU,Qing-Lian WANG. Cloning and functional analysis of promoter of potassium transporter gene GhHAK5 in upland cotton (Gossypium hirsutum L.) [J]. Acta Agronomica Sinica, 2020, 46(01): 40-51.
[8] CHANG Jian-Zhong,DONG Chun-Lin,ZHANG Zheng,QIAO Lin-Yi,YANG Rui,JIANG Dan,ZHANG Yan-Qin,YANG Li-Li,WU Jia-Jie,JING Rui-Lian. Function analysis of 5′ untranslated region introns in drought-resistance gene TaSAP1 [J]. Acta Agronomica Sinica, 2019, 45(9): 1311-1318.
[9] Xiao-Hong ZHANG,Gen-Hai HU,Han-Tao WANG,Cong-Cong WANG,Heng-Ling WEI,Yuan-Zhi FU,Shu-Xun YU. Expression and promoter activity of GhTFL1a and GhTFL1c in Upland cotton [J]. Acta Agronomica Sinica, 2019, 45(3): 469-476.
[10] Rui-Juan YANG,Jian-Rong BAI,Lei YAN,Liang SU,Xiu-Hong WANG,Rui LI,Cong-Zhuo ZHANG. Cloning and Expression Analysis of Strong Inducible Promoter P1502-ZmPHR1 Responding to Low Phosphorus Stress in Maize [J]. Acta Agronomica Sinica, 2018, 44(7): 1000-1009.
[11] Bo JIAO, Feng BAI, Yan-Yan LI, Jia LU, Xiao ZHANG, Yi-Ru CAO, Rong-Chao GE, Bao-Cun ZHAO. Cloning and Regulation Function Analysis of TaSC Promoter from Salt Tolerant Wheat [J]. Acta Agronomica Sinica, 2018, 44(04): 620-626.
[12] Li-Xia QIN, Jing LI, Huan-Yang ZHANG, Sheng LI, Meng-Jie ZHU, Gai-Li JIAO, Shen-Jie WU. Cloning and Expression Analysis of Galactosyltransferase Gene GhGalT1 Promoter in Cotton [J]. Acta Agronomica Sinica, 2018, 44(02): 218-226.
[13] LI Min,YU Tai-Fei,XU Zhao-Shi,ZHANG Shuang-Xi,MIN Dong-Hong,CHEN Ming,MA You-Zhi,CHAI Shou-Cheng,ZHENG Wei-Jun. Soybean Transcription Factor Gene GmNF-YCa Enhances Osmotic Stress Tolerance of Transgenic Arabidopsis [J]. Acta Agron Sin, 2017, 43(08): 1161-1169.
[14] HU Hai-Yan,LIU Di-Qiu,LI Yun-Jing,LI Yang,TU Li-Li*. Identification of Promoter GhFLA1 Preferentially Expressed during Cotton fiber Elongation [J]. Acta Agron Sin, 2017, 43(06): 849-854.
[15] YU Jian,LIU Chang-Ying,ZHAO Ai-Chun,WANG Chuan-Hong,CAI Yu-Xiang,YU Mao-De*. Functional Analysis of 1-Aminocyclopropane-1-carboxylate Oxidase Gene’s Promoter in Mulberry [J]. Acta Agron Sin, 2017, 43(06): 839-848.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Add: No. 80 Xueyuan South Rd, Beijing 100081, P. R. China E-mail: zwxb301@caas.cn
Supported by Beijing Magtech Co.Ltd