Literature DB >> 34395757

High Resolution Melting Temperature Analysis to IdentifyCRISPR/Cas9 Mutants from Arabidopsis.

Cynthia Denbow1, Sonia Carole Ehivet1,2, Sakiko Okumoto1,2.   

Abstract

CRISPR/Cas9 made targeted mutagenesis and genome editing possible for many plant species. One of the ways that the endonuclease is used for plant genetics is the creation of loss-of-function mutants, which typically result from erroneous DNA repair through non-homologous end joining (NHEJ) pathway. The majority of erroneous repair events results in single-bp insertion or deletion. While single-bp insertions or deletions (indels) effectively destroy the function of protein-coding genes through frameshift, detection is difficult due to the small size shift. High-resolution melting temperature analysis allows quick detection, and it does not require any additional pipetting steps after the PCR amplification of the region of interest. In this protocol, we will describe the steps required for the analysis of potential homozygous mutants.
Copyright © 2018 The Authors; exclusive licensee Bio-protocol LLC.

Entities:  

Keywords:  Arabidopsis; CRISPR/Cas9; High-resolution melting analysis; Indel detection; Targeted mutagenesis

Year:  2018        PMID: 34395757      PMCID: PMC8328645          DOI: 10.21769/BioProtoc.2944

Source DB:  PubMed          Journal:  Bio Protoc        ISSN: 2331-8325


  12 in total

1.  Amplicon melting analysis with labeled primers: a closed-tube method for differentiating homozygotes and heterozygotes.

Authors:  Cameron N Gundry; Joshua G Vandersteen; Gudrun H Reed; Robert J Pryor; Jian Chen; Carl T Wittwer
Journal:  Clin Chem       Date:  2003-03       Impact factor: 8.327

Review 2.  Enzymatic mutation detection technologies.

Authors:  Anthony T Yeung; Deepali Hattangadi; Lauryn Blakesley; Emmanuelle Nicolas
Journal:  Biotechniques       Date:  2005-05       Impact factor: 1.993

3.  Kinking of DNA and RNA helices by bulged nucleotides observed by fluorescence resonance energy transfer.

Authors:  C Gohlke; A I Murchie; D M Lilley; R M Clegg
Journal:  Proc Natl Acad Sci U S A       Date:  1994-11-22       Impact factor: 11.205

Review 4.  Enabling plant synthetic biology through genome engineering.

Authors:  Nicholas J Baltes; Daniel F Voytas
Journal:  Trends Biotechnol       Date:  2014-12-12       Impact factor: 19.536

Review 5.  Editing plant genomes with CRISPR/Cas9.

Authors:  Khaoula Belhaj; Angela Chaparro-Garcia; Sophien Kamoun; Nicola J Patron; Vladimir Nekrasov
Journal:  Curr Opin Biotechnol       Date:  2014-11-29       Impact factor: 9.740

6.  An efficient genotyping method for genome-modified animals and human cells generated with CRISPR/Cas9 system.

Authors:  Xiaoxiao Zhu; Yajie Xu; Shanshan Yu; Lu Lu; Mingqin Ding; Jing Cheng; Guoxu Song; Xing Gao; Liangming Yao; Dongdong Fan; Shu Meng; Xuewen Zhang; Shengdi Hu; Yong Tian
Journal:  Sci Rep       Date:  2014-09-19       Impact factor: 4.379

7.  Comparison of T7E1 and surveyor mismatch cleavage assays to detect mutations triggered by engineered nucleases.

Authors:  Léna Vouillot; Aurore Thélie; Nicolas Pollet
Journal:  G3 (Bethesda)       Date:  2015-01-07       Impact factor: 3.154

8.  CRISPR/Cas9-mediated efficient and heritable targeted mutagenesis in tomato plants in the first and later generations.

Authors:  Changtian Pan; Lei Ye; Li Qin; Xue Liu; Yanjun He; Jie Wang; Lifei Chen; Gang Lu
Journal:  Sci Rep       Date:  2016-04-21       Impact factor: 4.379

9.  CRISPR/Cas9-mediated efficient targeted mutagenesis in Chardonnay (Vitis vinifera L.).

Authors:  Chong Ren; Xianju Liu; Zhan Zhang; Yi Wang; Wei Duan; Shaohua Li; Zhenchang Liang
Journal:  Sci Rep       Date:  2016-08-31       Impact factor: 4.379

10.  Gateway-Compatible CRISPR-Cas9 Vectors and a Rapid Detection by High-Resolution Melting Curve Analysis.

Authors:  Cynthia J Denbow; Samantha Lapins; Nick Dietz; Raelynn Scherer; Zachary L Nimchuk; Sakiko Okumoto
Journal:  Front Plant Sci       Date:  2017-07-05       Impact factor: 5.753
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