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A robust protocol for efficient generation, and genomic characterization of insertional mutants of Chlamydomonas reinhardtii
Random insertional mutagenesis of using drug resistance cassettes has contributed to the generation of tens of thousands of transformants in dozens of labs around the world. In many instances these insertional mutants have helped elucidate the genetic basis of various physiological processes in this...
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| Published in: | Plant methods 2017-04, Vol.13 (1), p.22-22, Article 22 |
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| creator | Pollock, Steve V Mukherjee, Bratati Bajsa-Hirschel, Joanna Machingura, Marylou C Mukherjee, Ananya Grossman, Arthur R Moroney, James V |
| description | Random insertional mutagenesis of
using drug resistance cassettes has contributed to the generation of tens of thousands of transformants in dozens of labs around the world. In many instances these insertional mutants have helped elucidate the genetic basis of various physiological processes in this model organism. Unfortunately, the insertion sites of many interesting mutants are never defined due to experimental difficulties in establishing the location of the inserted cassette in the Chlamydomonas genome. It is fairly common that several months, or even years of work are conducted with no result. Here we describe a robust method to identify the location of the inserted DNA cassette in the Chlamydomonas genome.
Insertional mutants were generated using a DNA cassette that confers paromomycin resistance. This protocol identified the cassette insertion site for greater than 80% of the transformants. In the majority of cases the insertion event was found to be simple, without large deletions of flanking genomic DNA. Multiple insertions were observed in less than 10% of recovered transformants.
The method is quick, relatively inexpensive and does not require any special equipment beyond an electroporator. The protocol was tailored to ensure that the sequence of the Chlamydomonas genomic DNA flanking the random insertion is consistently obtained in a high proportion of transformants. A detailed protocol is presented to aid in the experimental design and implementation of mutant screens in Chlamydomonas. |
| doi_str_mv | 10.1186/s13007-017-0170-x |
| format | article |
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using drug resistance cassettes has contributed to the generation of tens of thousands of transformants in dozens of labs around the world. In many instances these insertional mutants have helped elucidate the genetic basis of various physiological processes in this model organism. Unfortunately, the insertion sites of many interesting mutants are never defined due to experimental difficulties in establishing the location of the inserted cassette in the Chlamydomonas genome. It is fairly common that several months, or even years of work are conducted with no result. Here we describe a robust method to identify the location of the inserted DNA cassette in the Chlamydomonas genome.
Insertional mutants were generated using a DNA cassette that confers paromomycin resistance. This protocol identified the cassette insertion site for greater than 80% of the transformants. In the majority of cases the insertion event was found to be simple, without large deletions of flanking genomic DNA. Multiple insertions were observed in less than 10% of recovered transformants.
The method is quick, relatively inexpensive and does not require any special equipment beyond an electroporator. The protocol was tailored to ensure that the sequence of the Chlamydomonas genomic DNA flanking the random insertion is consistently obtained in a high proportion of transformants. A detailed protocol is presented to aid in the experimental design and implementation of mutant screens in Chlamydomonas.</description><identifier>ISSN: 1746-4811</identifier><identifier>EISSN: 1746-4811</identifier><identifier>DOI: 10.1186/s13007-017-0170-x</identifier><identifier>PMID: 28392829</identifier><language>eng</language><publisher>England: BioMed Central</publisher><subject>Acclimation ; Acclimatization ; Adapters ; Air conditioning ; Algae ; Amplification ; Antibiotic resistance ; Antibiotics ; Asymmetry ; Atmosphere ; Bacteria ; Biochemistry ; Biological activity ; Carbon concentrating mechanism ; Carbon dioxide ; Chlamydomonas Genome ; Chlamydomonas reinhardtii ; Chlorophyll ; Coding ; Cyc6 gene ; Deoxyribonucleic acid ; Dissection ; DNA ; DNA polymerase ; Drug resistance ; Electroporation Cuvette ; Enzymes ; Eukaryotes ; Experimental design ; Fragmentation ; Fungi ; Gene expression ; Gene mapping ; Genetic screening ; Genetic transformation ; Genetics ; genome ; Genomes ; Genomics ; Homology ; Insertional Mutagenesis ; Insertional Mutant ; Inserts ; Kinases ; Methodology ; Methods ; Mutagenesis ; Mutants ; Nitrogen ; Nuclei ; Nucleotide sequence ; Optimization ; Paromomycin ; Photosynthesis ; Plants ; Polymerase chain reaction ; Position (location) ; Prokaryotes ; Proofreading ; Ribonucleic acid ; RNA ; Studies ; Success ; Sulfur ; Temperature effects ; Transcription</subject><ispartof>Plant methods, 2017-04, Vol.13 (1), p.22-22, Article 22</ispartof><rights>Copyright BioMed Central 2017</rights><rights>The Author(s) 2017</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c592t-98843195161c54eba87dc3b287a1e60ec091d6fa0bf99300412e260f6497b7f23</citedby><cites>FETCH-LOGICAL-c592t-98843195161c54eba87dc3b287a1e60ec091d6fa0bf99300412e260f6497b7f23</cites><orcidid>0000-0002-3652-5293</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC5376698/pdf/$$EPDF$$P50$$Gpubmedcentral$$Hfree_for_read</linktopdf><linktohtml>$$Uhttps://www.proquest.com/docview/1884817456?pq-origsite=primo$$EHTML$$P50$$Gproquest$$Hfree_for_read</linktohtml><link.rule.ids>230,314,724,777,781,882,25734,27905,27906,36993,36994,44571,53772,53774</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/28392829$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Pollock, Steve V</creatorcontrib><creatorcontrib>Mukherjee, Bratati</creatorcontrib><creatorcontrib>Bajsa-Hirschel, Joanna</creatorcontrib><creatorcontrib>Machingura, Marylou C</creatorcontrib><creatorcontrib>Mukherjee, Ananya</creatorcontrib><creatorcontrib>Grossman, Arthur R</creatorcontrib><creatorcontrib>Moroney, James V</creatorcontrib><title>A robust protocol for efficient generation, and genomic characterization of insertional mutants of Chlamydomonas reinhardtii</title><title>Plant methods</title><addtitle>Plant Methods</addtitle><description>Random insertional mutagenesis of
using drug resistance cassettes has contributed to the generation of tens of thousands of transformants in dozens of labs around the world. In many instances these insertional mutants have helped elucidate the genetic basis of various physiological processes in this model organism. Unfortunately, the insertion sites of many interesting mutants are never defined due to experimental difficulties in establishing the location of the inserted cassette in the Chlamydomonas genome. It is fairly common that several months, or even years of work are conducted with no result. Here we describe a robust method to identify the location of the inserted DNA cassette in the Chlamydomonas genome.
Insertional mutants were generated using a DNA cassette that confers paromomycin resistance. This protocol identified the cassette insertion site for greater than 80% of the transformants. In the majority of cases the insertion event was found to be simple, without large deletions of flanking genomic DNA. Multiple insertions were observed in less than 10% of recovered transformants.
The method is quick, relatively inexpensive and does not require any special equipment beyond an electroporator. The protocol was tailored to ensure that the sequence of the Chlamydomonas genomic DNA flanking the random insertion is consistently obtained in a high proportion of transformants. A detailed protocol is presented to aid in the experimental design and implementation of mutant screens in Chlamydomonas.</description><subject>Acclimation</subject><subject>Acclimatization</subject><subject>Adapters</subject><subject>Air conditioning</subject><subject>Algae</subject><subject>Amplification</subject><subject>Antibiotic resistance</subject><subject>Antibiotics</subject><subject>Asymmetry</subject><subject>Atmosphere</subject><subject>Bacteria</subject><subject>Biochemistry</subject><subject>Biological activity</subject><subject>Carbon concentrating mechanism</subject><subject>Carbon dioxide</subject><subject>Chlamydomonas Genome</subject><subject>Chlamydomonas reinhardtii</subject><subject>Chlorophyll</subject><subject>Coding</subject><subject>Cyc6 gene</subject><subject>Deoxyribonucleic acid</subject><subject>Dissection</subject><subject>DNA</subject><subject>DNA polymerase</subject><subject>Drug resistance</subject><subject>Electroporation Cuvette</subject><subject>Enzymes</subject><subject>Eukaryotes</subject><subject>Experimental design</subject><subject>Fragmentation</subject><subject>Fungi</subject><subject>Gene expression</subject><subject>Gene mapping</subject><subject>Genetic screening</subject><subject>Genetic transformation</subject><subject>Genetics</subject><subject>genome</subject><subject>Genomes</subject><subject>Genomics</subject><subject>Homology</subject><subject>Insertional Mutagenesis</subject><subject>Insertional Mutant</subject><subject>Inserts</subject><subject>Kinases</subject><subject>Methodology</subject><subject>Methods</subject><subject>Mutagenesis</subject><subject>Mutants</subject><subject>Nitrogen</subject><subject>Nuclei</subject><subject>Nucleotide sequence</subject><subject>Optimization</subject><subject>Paromomycin</subject><subject>Photosynthesis</subject><subject>Plants</subject><subject>Polymerase chain reaction</subject><subject>Position (location)</subject><subject>Prokaryotes</subject><subject>Proofreading</subject><subject>Ribonucleic acid</subject><subject>RNA</subject><subject>Studies</subject><subject>Success</subject><subject>Sulfur</subject><subject>Temperature effects</subject><subject>Transcription</subject><issn>1746-4811</issn><issn>1746-4811</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><sourceid>DOA</sourceid><recordid>eNqFUk1v1DAQjRCIlsIP4IIsceFAwN8fF6RqVaBSJS5wthzH3vUqiRfbQS3ix9fJlqrlwmFkz8x7TzP2a5rXCH5ASPKPGREIRQvRGrC9ftKcIkF5SyVCTx_cT5oXOe8hpAgT_rw5wZIoLLE6bf6cgxS7ORdwSLFEGwfgYwLO-2CDmwrYusklU0Kc3gMz9Usex2CB3ZlkbHEp_F67IHoQpuzSkpgBjHMxU8lLebMbzHjTx7E2MkguTJXblxBeNs-8GbJ7dXeeNT8-X3zffG2vvn253JxftZYpXFolJSVIMcSRZdR1Rorekg5LYZDj0FmoUM-9gZ1XiqxbOsyh51SJTnhMzprLo24fzV4fUhhNutHRBL0WYtpqU-e2g9PMMt85BZnpLfUWK0OpsZAyJxGTRFStT0etw9yNrrf1jZIZHok-7kxhp7fxl2ZEcK5kFXh3J5Diz9nloseQrRsGM7k4Z40hhBxCLPB_oUhKTqiQiFfo23-g-zin-hErqnpAULag0BFlU8w5OX8_N4J6sZQ-WkpXOy0B9XXlvHm48D3jr4fILZbXyU8</recordid><startdate>20170403</startdate><enddate>20170403</enddate><creator>Pollock, Steve V</creator><creator>Mukherjee, Bratati</creator><creator>Bajsa-Hirschel, 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characterization of insertional mutants of Chlamydomonas reinhardtii</title><author>Pollock, Steve V ; Mukherjee, Bratati ; Bajsa-Hirschel, Joanna ; Machingura, Marylou C ; Mukherjee, Ananya ; Grossman, Arthur R ; Moroney, James V</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c592t-98843195161c54eba87dc3b287a1e60ec091d6fa0bf99300412e260f6497b7f23</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Acclimation</topic><topic>Acclimatization</topic><topic>Adapters</topic><topic>Air conditioning</topic><topic>Algae</topic><topic>Amplification</topic><topic>Antibiotic resistance</topic><topic>Antibiotics</topic><topic>Asymmetry</topic><topic>Atmosphere</topic><topic>Bacteria</topic><topic>Biochemistry</topic><topic>Biological activity</topic><topic>Carbon concentrating mechanism</topic><topic>Carbon dioxide</topic><topic>Chlamydomonas Genome</topic><topic>Chlamydomonas 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Participant titles)</collection><collection>Directory of Open Access Journals</collection><jtitle>Plant methods</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Pollock, Steve V</au><au>Mukherjee, Bratati</au><au>Bajsa-Hirschel, Joanna</au><au>Machingura, Marylou C</au><au>Mukherjee, Ananya</au><au>Grossman, Arthur R</au><au>Moroney, James V</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>A robust protocol for efficient generation, and genomic characterization of insertional mutants of Chlamydomonas reinhardtii</atitle><jtitle>Plant methods</jtitle><addtitle>Plant Methods</addtitle><date>2017-04-03</date><risdate>2017</risdate><volume>13</volume><issue>1</issue><spage>22</spage><epage>22</epage><pages>22-22</pages><artnum>22</artnum><issn>1746-4811</issn><eissn>1746-4811</eissn><abstract>Random insertional mutagenesis of
using drug resistance cassettes has contributed to the generation of tens of thousands of transformants in dozens of labs around the world. In many instances these insertional mutants have helped elucidate the genetic basis of various physiological processes in this model organism. Unfortunately, the insertion sites of many interesting mutants are never defined due to experimental difficulties in establishing the location of the inserted cassette in the Chlamydomonas genome. It is fairly common that several months, or even years of work are conducted with no result. Here we describe a robust method to identify the location of the inserted DNA cassette in the Chlamydomonas genome.
Insertional mutants were generated using a DNA cassette that confers paromomycin resistance. This protocol identified the cassette insertion site for greater than 80% of the transformants. In the majority of cases the insertion event was found to be simple, without large deletions of flanking genomic DNA. Multiple insertions were observed in less than 10% of recovered transformants.
The method is quick, relatively inexpensive and does not require any special equipment beyond an electroporator. The protocol was tailored to ensure that the sequence of the Chlamydomonas genomic DNA flanking the random insertion is consistently obtained in a high proportion of transformants. A detailed protocol is presented to aid in the experimental design and implementation of mutant screens in Chlamydomonas.</abstract><cop>England</cop><pub>BioMed Central</pub><pmid>28392829</pmid><doi>10.1186/s13007-017-0170-x</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-3652-5293</orcidid><oa>free_for_read</oa></addata></record> |
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| ispartof | Plant methods, 2017-04, Vol.13 (1), p.22-22, Article 22 |
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| subjects | Acclimation Acclimatization Adapters Air conditioning Algae Amplification Antibiotic resistance Antibiotics Asymmetry Atmosphere Bacteria Biochemistry Biological activity Carbon concentrating mechanism Carbon dioxide Chlamydomonas Genome Chlamydomonas reinhardtii Chlorophyll Coding Cyc6 gene Deoxyribonucleic acid Dissection DNA DNA polymerase Drug resistance Electroporation Cuvette Enzymes Eukaryotes Experimental design Fragmentation Fungi Gene expression Gene mapping Genetic screening Genetic transformation Genetics genome Genomes Genomics Homology Insertional Mutagenesis Insertional Mutant Inserts Kinases Methodology Methods Mutagenesis Mutants Nitrogen Nuclei Nucleotide sequence Optimization Paromomycin Photosynthesis Plants Polymerase chain reaction Position (location) Prokaryotes Proofreading Ribonucleic acid RNA Studies Success Sulfur Temperature effects Transcription |
| title | A robust protocol for efficient generation, and genomic characterization of insertional mutants of Chlamydomonas reinhardtii |
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