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HTTP/1.1 200 OKx-amz-id-2: erfxfLCN0Z7kUcTOYi/7n67NpMaboUUYiN5PiheJV+JzYlwISLnYLIBfEAyC2nT5A80dooAdjsYdZcJoxwP9FJSOS/PRwn9P9EUmlen+nVMx-amz-request-id: 3TD80AR6ZPXM658JDate: Sun, 30 Nov 2025 20:25:38 GMTLast-Modified: Thu, 08 Aug 2024 23:32:09 GMTx-amz-version-id: gzURfwJwdTQKRHZymbsLeNdYIDzmT_8DETag: 8403c1749407b0a2701b9a5e43c43f1cContent-Type: text/htmlContent-Length: 26976Server: AmazonS3

!doctype html>html langen>head>  title>Zhang Lab/title>  !-- Required meta tags -->  meta charsetutf-8>  meta contentwidthdevice-width, initial-scale1.0 nameviewport />  meta http-equivX-UA-Compatible contentIEedge,chrome1 />  !--     Fonts and icons     -->  link relstylesheet typetext/css hrefhttps://fonts.googleapis.com/css?familyRoboto:300,400,500,700|Roboto+Slab:400,700|Material+Icons />  link relstylesheet hrefhttps://maxcdn.bootstrapcdn.com/font-awesome/latest/css/font-awesome.min.css>  !-- Material Kit CSS -->  link hrefAWS/assets/css/material-kit.css?v2.0.7 relstylesheet />/head>body onloadnavItemMouseOver(nav-item0)>  script>    // json by year    const news  {	  2022: 			b> June /b>ul> li>Congrats to Trevor, Krishan and Meredith for their differential genome editing work published on i>Plant Physiology/i>. a hrefhttps://academic.oup.com/plphys/advance-article-abstract/doi/10.1093/plphys/kiac285/6605859 targetblank>Read More/a> /li>/ul>,  		b> May /b> ul>li>Congrats to Jitesh and Trevor for being selected for oral presentations at Plant Biology 2022. /li>/ul>,		b> April /b>ul>li>Congrats to Trevor for receiving 2022-23 Doctoral Dissertation Fellowship. /li>li>Congrats to Trevor and Spring for their Setaria viris DNA methylation work accepted by i>The Plant Journal/i>. a hrefhttps://onlinelibrary.wiley.com/doi/10.1111/tpj.15781 targetblank>Read More/a>/li>/ul>, 	  ,			  2021: 			b> Nov /b>ul>li>Welcome Vidhya Raman joining the lab./li>li> Congrats to Krishan for starting a new position at CoverCress Inc. St. Louis, Missouri./li>/ul>, 		b> July /b>ul>li>Welcome Flowerika joining the lab./li>/ul>, 	    b> April /b>ul>li>Congrats to Trevor for receiving 2021 Bernard and Jean Phinney Graduate Fellowships in Plant Biology. /li>/ul>,		  	  ,	      2020: 		b> October /b>ul>li>Welcome Krishan and Jitesh joining the lab./li>/ul>,		  		b> July /b>ul>li>The story of rationally designed base editor was published by i>Molecular Cell/i>. a hrefhttps://www.cell.com/molecular-cell/fulltext/S1097-2765(20)30471-8# targetblank>Read More/a>/li> li>Congrats to Trevor, Spring and Xiaokang for their Setaria viris genome editing work accepted by i>The Plant Journal/i>. /li>/ul>, 		  		b> May /b>ul>li>Congrats to Meredith for receiving DONALD R. ZANDER Alumni Award for her outstanding student leadership./li>/ul>,		          b> April /b>ul>li>The preprint of our recent manuscript on “Optimization of multiplexed CRISPR/Cas9 system for highly efficient genome editing in Setaria viridis” is now online at bioRxiv: https://www.biorxiv.org/content/10.1101/2020.04.11.037572v1./li>/ul>,		          b> Jan /b>ul>li>Meredith received Undergraduate Research Opportunities Program (UROP) award to work on the “Examining the Role of MET1 in the Setaria viridis Methylome” project./li>li>Congrats to Gunvant for starting his new adventure as Assistant professor at Texas Tech University./li>/ul>,          };    // json by year    const pubs  {			2022:				 Read A, Weiss T, Crisp PA, Liang Z, Noshay J, Menard CC, Wang C, Song M, Hirsch CN, Springer NM, Zhang F. Genome-wide loss of CHH methylation with limited transcriptome changes in Setaria viridis DOMAINS REARRANGED METHYLTRANSFERASE (DRM) mutants. i>Plant J. /i> 2022 Apr 18. ,	,				2021: 				Banakar, R., Schubert, M., Kurgan, G., Rai, K. M., Beaudoin, S. F., Collingwood, M. A., Vakulskas, C. A., Wang, K., & Zhang, F. (2022). Efficiency, Specificity and Temperature Sensitivity of Cas9 and Cas12a RNPs for DNA-free Genome Editing in Plants. i>Frontiers in genome editing/i>, 3, 760820.,				Harwood, W., Chen, Q. J., Zhang, F., & Yang, B. (2021). Editorial: New Genome Editing Tools and Resources: Enabling Gene Discovery and Functional Genomics. i> Frontiers in genome editing /i>, 3, 771622.,	,			  2020: 		  Weiss, T., C. Wang, X. Kang, H. Zhao, and M. E. Gamo., et al. 2020. Optimization of Multiplexed CRISPR/Cas9 System for Highly Efficient Genome Editing in Setaria Viridis. bioRxiv. https://www.biorxiv.org/content/10.1101/2020.04.11.037572v1.abstract. Accepted by i>The Plant Journal /i>,		  Jin S, Fei H, Zhu Z, et al. Rationally Designed APOBEC3B Cytosine Base Editors with Improved Specificity. i>Mol Cell/i> 2020;S1097-2765(20)30471-8.,		  	  ,		      2019:         Jin S, Zong Y, Gao Q, Zhu Z, Wang Y, Qin P, Liang C, Wang D, Qiu JL, b>Zhang F/b>, Gao C. Cytosine, but not adenine, base editors induce genome-wide off-target mutations in rice. i>Science/i> 2019 Apr 19; 364(6437):292-295.,        b>Feng Zhang/b>, Daniel F Voytas, Modulating gene translational control through genome editing, i>National Science Review/i> Volume 6, Issue 3, May 2019, Page 391.,      ,      2018:         Ji, X., Si, X., Zhang, Y., Zhang, H., b>Zhang, F./b>, & Gao, C. (2018). Conferring DNA virus resistance with high specificity in plants using virus-inducible genome-editing system. i>Genome biology/i> 19(1), 197.,        b>Zhang, F./b>, & Voytas, D. F. (2018). Synthetic genomes engineered by SCRaMbLEing. i>Science China Life Sciences/i> 61(8), 975-977.,      ,      2016:         Zachary L Demorest, Andrew Coffman, Nicholas J Baltes, Thomas J Stoddard, Benjamin M Clasen, Song Luo, Adam Retterath, Ann Yabandith, Maria Elena Gamo, Jeff Bissen, Luc Mathis, Daniel F Voytas, b>Feng Zhang*/b>. (2016) b>Direct stacking of sequence-specific nuclease-induced mutations to produce high oleic and low linolenic soybean oil./b> i>BMC Plant Biology/i>, 6:225.,        Thomas J Stoddard, Benjamin M Clasen, Nicholas J Baltes, Zachary L Demorest, Daniel F Voytas, b>Feng Zhang/b>, Song Luo. (2016) b>Targeted mutagenesis in plant cells through transformation of sequence-specific nuclease mRNA./b> i>PLoS ONE/i> 11(5):e0154634.,        Jin Li, Thomas J Stoddard, Zachary L Demorest, Pierre-Olivier Lavoie, Song Luo, Benjamin M Clasen, Frederic Cedrone, Erin E Ray, Andrew P Coffman, Aurelie Daulhac, Ann Yabandith, Adam J Retterath, Luc Mathis, Daniel F Voytas, Marc-André DAoust, b>Feng Zhang*/b>. (2016) b>Multiplexed, targeted gene editing in Nicotiana benthamiana for glyco- engineering and monoclonal antibody production./b> i>Plant Biotechnology Journal/i> 14(2):533-542.,        Benjamin M. Clasen, Thomas J. Stoddard, Song Luo, Zachary L. Demorest, Jin Li, Frederic Cedrone, Redeat Tibebu, Shawn Davison, Erin E. Ray, Aurelie Daulhac, Andrew Coffman, Ann Yabandith, Adam Retterath, William Haun, Nicholas J. Baltes, Luc Mathis, Daniel F. Voytas and b>Feng Zhang*/b>. (2016) b>Improving cold storage and processing traits in potato through targeted gene editing./b> i>Plant Biotechnology Journal/i> 14 (1):169-176.,      ,      2015:         Song Luo, Jin Li, Thomas J Stoddard, Nicholas J Baltes, Zachary L Demorest, Benjamin M Clasen, Andrew Coffman, Adam Retterath, Luc Mathis, Daniel F Voytas, b>Feng Zhang*/b>. (2015) b>Non-transgenic plant genome editing using purified sequence-specific nucleases./b> i>Molecular Plant/i> 8(9):1425-1427.,      ,      2005 - 2014:         William Haun, Andrew Coffman, Benjamin M Clasen, Zachary L Demorest, Anita Lowy, Erin Ray, Adam Retterath, Thomas Stoddard, Alexandre Juillerat, Frederic Cedrone, Luc Mathis, Daniel F Voytas, b>Feng Zhang*/b>. (2014) b>Improved soybean oil quality by targeted mutagenesis of the fatty acid desaturase 2 gene family./b> i>Plant Biotechnology Journal/i> 12(7):934-940.,        Yiping Qi, Xiaohong Li, Yong Zhang, Colby G Starker, Nicholas J Baltes, b>Feng Zhang/b>, Jeffry D Sander, Deepak Reyon, J Keith Joung, Daniel F Voytas. (2013) b>Targeted deletion and inversion of tandemly arrayed genes in Arabidopsis thaliana using zinc finger nucleases./b> i>G3 Genes|Genomes|Genetics/i> 3(10):1707-1715.,        Marine Beurdeley, Fabian Bietz, Jin Li, Severine Thomas, Thomas Stoddard, Alexandre Juillerat, b>Feng Zhang/b>, Daniel F Voytas, Philippe Duchateau, George H Silva. (2013) b>Compact designer TALENs for efficient genome engineering./b> i>Nature Communications/i> 4:1762.,        Y Qi, Y Zhang, b>F Zhang/b>, JA Baller, SC Cleland, Y Ryu, CG Starker, DF Voytas. (2013) b>Increasing frequencies of site-specific mutagenesis and gene targeting in Arabidopsis by manipulating DNA repair pathways./b> i>Genome Research/i> 23(3):547-554,        Y Zhang*, b>F Zhang*/b>, X Li, JA Baller, Y Qi, CG Starker, AJ Bogdanove, DF Voytas. (2013) b>Transcription Activator-Like Effector Nucleases Enable Efficient Plant Genome Engineering./b> i>Plant Physiol/i>. 161(1):20-27 (* co-first author).,        Hancock CN, b>Zhang F/b>, Floyd K, Richardson AO, Lafayette P, Tucker D, Wessler SR, Parrott WA. (2011) b>The Rice Miniature Inverted Repeat Transposable Element mPing Is an Effective Insertional Mutagen in Soybean./b> i>Plant Physiol/i>. 157(2):552-62.,        Shaun Curtin, b>Feng Zhang/b>, Jeffry Sander, William Haun, Colby Starker, Nicholas Baltes, Deepak Reyon, Elizabeth Dahlborg, Mathew Goodwin, Andrew Coffman, Drena Dobbs, Keith Joung, Daniel Voytas and Robert Stupar. (2011) b>Targeted mutagenesis of duplicated genes in soybean with zinc finger nucleases./b> i>Plant Physiol/i>. 156(2):466-473.,        Deepak Reyon, Jessica Kirkpatrick, Jeffry Sander, b>Feng Zhang/b>, Daniel Voytas, J. Keith Joung, Drena Dobbs and Clark Coffman. (2011) b>ZFNGenome: A comprehensive resource for locating zinc finger nuclease target sites in model organisms./b> i>BMC Genomics/i> 12:1(83).,        Jeffry Sander, Elizabeth Dahlborg, Mathew Goodwin, Lindsay Cade, b>Feng Zheng/b>, Daniel Cifuentes, Shaun J. Curtin, Stacey Thibodeau-Beganny, Yiping Qi, Christopher J. Pierick, Ellen Hoffman, Morgan L. Maeder, Cyd Khayter, Deepak Reyon, Drena Dobbs, Robert M. Stupar, Antonio Giraldez, Daniel F. Voytas, Randall T. Peterson, Jing-Ruey J. Yeh, & J. Keith Joung. (2011) b>Context- Dependent Assembly (CoDA): A Highly Efficient, Selection-Free Method for Engineering Zinc Finger Nucleases./b> i>Nature Methods/i> 8:67-69.,        Christian M, Cermak T, Doyle EL, Schmidt C, b>Zhang F/b>, Hummel A, Bogdanove AJ, Voytas DF. (2010) b>TAL Effector Nucleases Create Targeted DNA Double- strand Breaks./b> i>Genetics/i> 186:757-761,        b>Feng Zhang/b>, Morgan L. Maeder, Erica Unger-Wallce, Deepak Renyon, Justin P. Hoshaw, Michelle Christian, Xiaohong Li, Drena Dobbs, Thomas A. Peterson, J. Keith Joung, Daniel F. Voytas. (2010) b>High frequency targeted mutagenesis in Arabidopsis thaliana using zinc finger nucleases./b> i>Proc Natl Acad Sci U S A./i> 07(26):12028-33.,        C Nathan Hancock, b>Feng Zhang/b> and Susan R Wessler. (2010) b>Transposition of the Tourist-MITE mPing in yeast: an assay that retains key features of catalysis by the class 2 PIF/Harbinger superfamily./b> i>Mobile DNA/i> 1(1):5.,        Ken Naito, b>Feng Zhang/b>, Takuji Tsukiyama, Hiroki Saito, C. Nathan Hancock, Aaron O. Richardson, Yutaka Okumoto, Takatoshi Tanisaka & Susan R. Wessler. (2009) b>Unexpected consequences of a sudden and massive transposon amplification on rice gene expression./b> i>Nature/i> 461:1130-1134.,        Yang, G., b>Zhang, F./b>, Hancock, C., Wessler, S. (2007) b>Transposition of the rice MITE mPing in Arabidopsis thaliana./b> i>Proc Natl Acad Sci U S A./i> 104:10962 – 10967.,        b>Zhang, F./b>, Peterson, T. (2006) b>Gene conversion between direct non-coding repeats promotes genetic and phenotypic diversity at a regulatory locus from Zea mays (L.)/b> i>Genetics/i> 174:753-762.,        Zhang, J., b>Zhang, F./b>, Peterson, T. (2006) b>Transposition of Reversed Ac Element Ends Generates Novel Chimeric Genes in Maize./b> i>PLOS Genetics/i> 2(10):1535-1540.,        b>Zhang, F./b>, Peterson, T. (2005) b>Characterization of two alleles of the maize p1 gene revealed paralogous recombination and a cob-glume specific enhancer region./b> i>The Plant Cell/i> 17:903-914.,      ,    };    // list of json {name, role, email, ...}    const people        {        name: Feng Zhang,        role: Principle Investigator,        email: zhangumn@umn.edu,        description: b>Research Interests:/b> Genome engineering, DNA repair, Epigenetics, Synthetic biologybr>b>Hobbies:/b> Reading books, Watching movies, Soccer and Golf…,        image: f_zhang.jpg,      },      {        name: Vidhya Raman,        role: Postdoc,        email: vidhya@umn.edu,		description:b>Research Interest: /b> Utilizing developmental regulators for improving regeneration efficiency in plants /b>, //b>Hobbies:/b>,		image: Vidhya.jpg,      },	  {        name: Jitesh Kumar,        role: Postdoc,        email: kumar708@umn.edu,		description:b>Research Interest: /b> Improving precise genome editing for crop improvement; DNA repair /b>,		image: JiteshKumar.jpg,      },      {        name: Trevor Weiss,        role: Graduate Student,        email: weiss480@umn.edu,		description: b>Research Interests:/b> Understanding the rules governing genome editing efficacy and repair outcomes, and how that knowledge can be leveraged for improved editing outcomes.br> b>Hobbies:/b> exploring the twin cities, outside activities (riding my bicycle, cross country skiing, playing disc golf), and reading fiction.,        image: TrevorWeiss.jpg,      },      {        name: Fnu Flowerika,        role: Postdoc,        email: ffloweri@umn.edu,		description: b>Research Interests:/b> To develop a synthetic biology platform in plants for improved trait development br> b>Hobbies:/b>Reading books, Badminton and Yoga ...,        image: Flowerika.jpg,      },      {        name: Chunfang (Spring) Wang,        role: Transformaiton Specialist,        email: wang9519@umn.edu,		description: b>Research Interests:/b> genome editing and transformation technology br> b>Hobbies:/b>exploring nature, reading, gardening...,        image: ChunfangWang.jpg,      },                ;    // list of json {name, role, ...}    const alumni        {        name: Gunvant Patil,        role: Postdoc,        description:  b> Current position /b> br> Assistant Professor br>Institute for Genomics of Crop Abiotic Stress Tolerance (IGCAST)br>Department of Plant and Soil Sciencebr>Experimental Science Building II (Room 210B)br>Texas Tech University, Lubbock, TX 79409,      },	  {        name: Raviraj Banakar,        role: Postdoc,		description:  b> Current position /b> br> Research Scientist II br> Tropic Biosciences br> Norwich, England ,      },	  {        name: Krishan Mohan Rai,        role: Postdoc,        description:  b> Current position /b> br> Plant Genetics Director br>CoverCress Inc. br> St. Louis, Missouri,      },	  {        name: McKenna Quandt,        role: Undergraduate Researcher,		description:  b> Current position /b>,      },	  {        name: Haikun Jiang,        role: Visiting Scholar,		description:  b> Current position /b> br> Faculty br>Anhui Agricultural University,      },	  {        name: Meredith Song,        role: Undergraduate Researcher (UROP),		description:  b> Current position /b>,      },    ;    // list of json {area, content, image}    const research        {        area: Precision and high throughput genome editing,        content:Genome editing holds the promise for plant researchers to make precise genetic modifications in their favorite genome. A key characteristic of current genome editing technologies is the use of sequence-specific nucleases. In the past few years, RNA-guided programmable nucleases, such as CRISPR/Cas9, have become the reagent of choice to achieve efficient genome editing in many plant species. While the genome editing technologies have been greatly improved, numerous challenges still need to be overcome to achieve plant genome editing with high precision and in a large-scale manner. One of my research programs focuses on tackling these technological barriers to improve efficiency, precision and throughput in plant genome editing.,        image:Research1.jpg,      },      {        area: Interplays between genome editing, DNA repair and epigenetics,        content:A key characteristic of current genome editing technologies is the use of sequence-specific nucleases to create double-stranded DNA breaks (DSBs) or single-stranded nicks at specific location(s) in the genome. Editing Efficiency and outcomes are dictated by DNA repair processes intertwined with chromatin and epigenetic factors. My lab is interested in the interplays between genome editing, DNA repair and epigenetic. We leverage the genetic, genomic and computational biology approaches to dissect key factors that influence DNA repair and genome stability. Knowledge gleaned from this research will lead to development of genome editing technologies with greater efficiency and precision.,        image:Research2.jpg,      },      {        area:Synthetic genomics,        content:One of the long-term goals in my lab is to leverage the efficient, precise and high-throughput plant genome editing platform for synthetic biology. The research areas we are particularly interested in are (1) to understand, manipulate and synthesize plant gene regulatory network (GRN), and (2) to manipulate and synthesize plant chromosome using a bottom up approach.,        image:Research3.jpg,      },    ;    // list of json {title, content}    const opportunities        {        title: Postdoctoral Position,        content:Postdoctoral positions are available in our laboratory to improve genome editing technologies and develop new synthetic genomics tools. Please read about our Research Program to learn about current projects. Motivated individuals with a record of scientific productivity in plant biology are encouraged to apply. Perspective postdocs should consider to obtain independent funding, such as a hrefhttps://www.nsf.gov/funding/pgm_summ.jsp?pims_id503622&orgNSF targetblank>NSF Postdoctoral Research Fellowships in Biology (PRFB)/a> with deadline at November each year, a hrefhttps://cbs.umn.edu/info/postdocs/grand-challenges targetblank>University of Minnesota Grand Challenges in Biology Postdoctoral Program/a> with deadline at February each year.,      },      {        title: Graduate Students,        content:We are always looking for great graduate students. We recruit students from a hrefhttps://cbs.umn.edu/academics/departments/pmb/graduate-education targetblank>Plant and Microbial Biological Graduate Program/a>. Application deadline: December 1 each year.,      },    ;    function reloadPage() {      location.reload();    }    function navItemMouseOver(idName) {      const currNavItem  document.getElementById(idName);      if (!currNavItem.className.toLowerCase().includes(active)) {        currNavItem.className +  active;      }      const title  currNavItem.children0.text.trim();      const mainContent  document.getElementById(mainContent);      var content  `h2 classtitle>${title}/h2>`;      if (title.trim().toLowerCase() ! news) {        navItemMouseOut(nav-item0);      }      if (title.trim().toLowerCase()  news) {        const keys  Object.keys(news).sort().reverse();        for (var i  0; i  keys.length; i++) {          const yr  keysi;          content + `h3 classtitle>${yr}/h3>div alignleft>ul>`;          for (var j  0; j  newsyr.length; j++) {            content + `li>${newsyrj}/li>`;          }          content + /ul>/div>;        }      } else if (title.trim().toLowerCase()  publications) {        const keys  Object.keys(pubs).sort().reverse();        for (var i  0; i  keys.length; i++) {          const yr  keysi;          content + `h3 classtitle>${yr}/h3>div alignleft>ul>`;          for (var j  0; j  pubsyr.length; j++) {            content + `li>${pubsyrj}/li>`;          }          content + /ul>/div>;        }      } else if (title.trim().toLowerCase()  people) {		content  `h2 classtitle>Current Team/h2>`;        content + `div classteam>`;        for (var i  0; i  people.length; i++) {          if (i % 3  0) {            content + `div classrow>`;          }          content + `div classcol-md-4>div classteam-player>div classcard card-plain>`;          if (peoplei.hasOwnProperty(image)) {            content + `div classcol-md-6 ml-auto mr-auto>img srcassets/img/${peopleiimage} classimg-raised rounded-circle img-fluid>/div>`;          } else {            content + `div classcol-md-6 ml-auto mr-auto>i classmaterial-icons>account_circle/i>/div>`;          }          content + `div classcard-body>${peopleiname}br>small classcard-description>${peopleirole}`;          if (peoplei.hasOwnProperty(description)) {            content + `br>${peopleidescription}`;          }          content + /small>/div>/div>/div>/div>;          if (i % 3  2) {            content + /div>;          }        }        content + /div>;		if (alumni.length ! 0) {		  content + `h2 classtitle>Alumni/h2>`;	      content + `div classteam>`;		  for (var i  0; i  alumni.length; i++) {		    if (i % 3  0) {			  content + `div classrow>`;			}			content + `div classcol-md-4>div classteam-player>div classcard card-plain>`;			content + `div classcard-body>${alumniiname}br>small classcard-description>${alumniirole}`;			if (alumnii.hasOwnProperty(description)) {		      content + `br>${alumniidescription}`;			}			content + /small>/div>/div>/div>/div>;			if (i % 3  2) {			  content + /div>;			}		  }		  content + /div>;					}      } else if (title.trim().toLowerCase()  research) {        for (var i  0; i  research.length; i++) {          var align  float-left;          if (i % 2  1) {            align  float-right;          }          content + `div classcard card-plain>div classcard-body text-left>img srcassets/img/${researchiimage} classimg rounded img-fluid mx-2 ${align}>`;          content + `b>${researchiarea}/b>br>${researchicontent}/div>/div>`;        }      } else if (title.trim().toLowerCase()  opportunities) {        for (var i  0; i  opportunities.length; i++) {          content + `div classcard card-plain>div classcard-body text-left>b>${opportunitiesititle}/b>br>${opportunitiesicontent}/div>/div>`        }      } else {        content + coming soon...      }      // console.log(content)      mainContent.innerHTML  content;    }    function navItemMouseOut(idName) {      const currNavItem  document.getElementById(idName);      currNavItem.className  currNavItem.className.replace( active, );    }  /script>  nav classnavbar navbar-color-on-scroll navbar-transparent fixed-top navbar-expand-lg color-on-scroll100>    div classcontainer>      div classnavbar-translate>        a classnavbar-brand hrefjavascript:reloadPage();>          i classmaterial-icons>eco/i>          Welcome to Zhang Lab /a>      /div>      div>      !-- div classcollapse navbar-collapse> -->        ul classnavbar-nav ml-auto>          li classnav-item onmouseoverjavascript:navItemMouseOver(this.id); onmouseoutnavItemMouseOut(this.id); idnav-item0>            a hrefjavascript:; classnav-link>              News            /a>          /li>          li classnav-item onmouseoverjavascript:navItemMouseOver(this.id); onmouseoutnavItemMouseOut(this.id); idnav-item1>            a hrefjavascript:; classnav-link>              People            /a>          /li>          li classnav-item onmouseoverjavascript:navItemMouseOver(this.id); onmouseoutnavItemMouseOut(this.id); idnav-item2>            a hrefjavascript:; classnav-link>              Research            /a>          /li>          li classnav-item onmouseoverjavascript:navItemMouseOver(this.id); onmouseoutnavItemMouseOut(this.id); idnav-item3>            a hrefjavascript:; classnav-link>              Publications            /a>          /li>          li classnav-item onmouseoverjavascript:navItemMouseOver(this.id); onmouseoutnavItemMouseOut(this.id); idnav-item4>            a hrefjavascript:; classnav-link>              Opportunities            /a>          /li>        /ul>      /div>    /div>  /nav>  div classpage-header header-filter data-parallaxtrue stylebackground-image: url(AWS/assets/img/bg1.png)>    div classcontainer>      div classrow>        div classcol-md-8 ml-auto mr-auto>          div classbrand text-center>            h1>Zhang Lab/h1>            h3 classtitle text-center>Plant Genome Editing and Synthetic Biology/h3>          /div>        /div>      /div>    /div>  /div>  div classmain main-raised>    div classcontainer idmainContainer>      div classsection text-center idmainContent styledisplay: block>        h2 classtitle idmainTitle>/h2>      /div>    /div>  /div>  footer classfooter footer-default>    div classcontainer copyright>      div classfloat-left text-left>        (612)624-6417br>        a hrefhttps://cbs.umn.edu/academics/departments/pmb targetblank>Department of Plant and Microbial Biology/a>br>        a hrefhttps://cppg.umn.edu/ targetblank>Center for Precision Plant Genomics/a>br>        a hrefhttps://twin-cities.umn.edu/ targetblank>University of Minnesota/a>      /div>      div classfloat-right text-right>        318 Cargill Buildingbr>        1500 Gortner Avebr>        Saint Paul, MN 55108-1023br>        ©        script>          document.write(new Date().getFullYear())        /script>        a hrefjavascript:reloadPage();>i classmaterial-icons>eco/i>Zhang Lab./a>      /div>    /div>  /footer>/body>/html>

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