Add to ORKGPremise: A novel protocol for rapid plant DNA extraction using microneedles is proposed, which supports botanic surveys, taxonomy, and systematics. This protocol can be conducted in the field with limited laboratory skills and equipment. The protocol is validated by sequencing and comparing the results with QIAGEN spin-column DNA extractions using BLAST analyses. Methods and Results: Two sets of DNA extractions were conducted on 13 species spanning various leaf anatomies and phylogenetic lineages: (i) fresh leaves were punched with custom polymeric microneedle patches to recover genomic DNA, or (ii) QIAGEN DNA extractions. Three plastid (matK, rbcL, and trnH-psbA) and one nuclear ribosomal (ITS) DNA regions were amplified and sequenced usin...
Published: 25 October 2021Metabarcoding of plant DNA recovered from environmental samples, termed en...
DNA barcoding uses specific regions of DNA in order to identify species. Initiatives are taking plac...
Contact: gregory.carrier@supagro.inra.frPremise of the study : In this study, we developed a nuclear...
Plant DNA and RNA extraction methods are well established, with a wide range of protocols, depending...
Abstract Background The recent development of next-generation sequencing DNA marker technologies, su...
Aim of the study: DNA and RNA extraction are still one of the most important and challenging steps o...
Modified from the protocol of Baptiste Mayjonade, Jérome Gouzy, Cécile Donnadieu, Nicolas Pouilly, W...
Background: When samples are collected in the field and transported to the lab, degradation of the n...
Anthropogenic activities are having a deleterious effect on biodiversity. To understand the magnitud...
In many parts of the world, human-mediated environmental change is depleting biodiversity faster tha...
We have optimized a simple and rapid method for isolation of high quality genomic DNA from leaves of...
Plant DNA extraction is prerequisite to any downstream DNA molecular application. However, the conve...
The successful implementation of next-generation sequencing techniques in plant and woody tissues de...
Modern genotyping techniques, such as SNP analysis and genotyping by sequencing (GBS), are hampered ...
The polymerase chain reaction (PCR) has revolutionised the rapid analysis of mammalian genomic DNA (...
Published: 25 October 2021Metabarcoding of plant DNA recovered from environmental samples, termed en...
DNA barcoding uses specific regions of DNA in order to identify species. Initiatives are taking plac...
Contact: gregory.carrier@supagro.inra.frPremise of the study : In this study, we developed a nuclear...
Plant DNA and RNA extraction methods are well established, with a wide range of protocols, depending...
Abstract Background The recent development of next-generation sequencing DNA marker technologies, su...
Aim of the study: DNA and RNA extraction are still one of the most important and challenging steps o...
Modified from the protocol of Baptiste Mayjonade, Jérome Gouzy, Cécile Donnadieu, Nicolas Pouilly, W...
Background: When samples are collected in the field and transported to the lab, degradation of the n...
Anthropogenic activities are having a deleterious effect on biodiversity. To understand the magnitud...
In many parts of the world, human-mediated environmental change is depleting biodiversity faster tha...
We have optimized a simple and rapid method for isolation of high quality genomic DNA from leaves of...
Plant DNA extraction is prerequisite to any downstream DNA molecular application. However, the conve...
The successful implementation of next-generation sequencing techniques in plant and woody tissues de...
Modern genotyping techniques, such as SNP analysis and genotyping by sequencing (GBS), are hampered ...
The polymerase chain reaction (PCR) has revolutionised the rapid analysis of mammalian genomic DNA (...
Published: 25 October 2021Metabarcoding of plant DNA recovered from environmental samples, termed en...
DNA barcoding uses specific regions of DNA in order to identify species. Initiatives are taking plac...
Contact: gregory.carrier@supagro.inra.frPremise of the study : In this study, we developed a nuclear...