The genome of Chenopodium pallidicaule: An emerging Andean super grain

The genome of Chenopodium pallidicaule: An emerging Andean super grain

Premise Cañahua is a semi‐domesticated crop grown in high‐altitude regions of the Andes. It is an A‐genome diploid (2n = 2x = 18) relative of the allotetraploid (AABB) Chenopodium quinoa and shares many of its nutritional benefits. Cañahua seed contains a complete protein, a low glycemic index, and...

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Main Authors: Hayley Mangelson, David E. Jarvis, Patricia Mollinedo, Oscar M. Rollano‐Penaloza, Valeria D. Palma‐Encinas, Luz Rayda Gomez‐Pando, Eric N. Jellen, Peter J. Maughan
Format: Article
Language:English
Published: Wiley 2019-11-01
Series:Applications in Plant Sciences
Subjects:
Amaranthaceae
Andean crops
Chenopodium pallidicaule
Hi‐C
proximity‐guided assembly
Online Access:https://doi.org/10.1002/aps3.11300
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spelling doaj-0778918e0774411588af6a3fe2c386442020-11-25T01:08:44ZengWileyApplications in Plant Sciences2168-04502019-11-01711n/an/a10.1002/aps3.11300The genome of Chenopodium pallidicaule: An emerging Andean super grainHayley Mangelson0David E. Jarvis1Patricia Mollinedo2Oscar M. Rollano‐Penaloza3Valeria D. Palma‐Encinas4Luz Rayda Gomez‐Pando5Eric N. Jellen6Peter J. Maughan7Department of Plant and Wildlife Sciences Brigham Young University 5144 LSB Provo Utah 84602 USADepartment of Plant and Wildlife Sciences Brigham Young University 5144 LSB Provo Utah 84602 USAInstitute of Natural Product Research Universidad Mayor de San Andrés La Paz BoliviaInstitute of Natural Product Research Universidad Mayor de San Andrés La Paz BoliviaInstitute of Natural Product Research Universidad Mayor de San Andrés La Paz BoliviaDepartamento de Fitotecnia Facultad de Agronomía Universidad Nacional Agraria de La Molina La Molina PeruDepartment of Plant and Wildlife Sciences Brigham Young University 5144 LSB Provo Utah 84602 USADepartment of Plant and Wildlife Sciences Brigham Young University 5144 LSB Provo Utah 84602 USAPremise Cañahua is a semi‐domesticated crop grown in high‐altitude regions of the Andes. It is an A‐genome diploid (2n = 2x = 18) relative of the allotetraploid (AABB) Chenopodium quinoa and shares many of its nutritional benefits. Cañahua seed contains a complete protein, a low glycemic index, and offers a wide variety of nutritionally important vitamins and minerals. Methods The reference assembly was developed using a combination of short‐ and long‐read sequencing techniques, including multiple rounds of Hi‐C–based proximity‐guided assembly. Results The final assembly of the ~363‐Mbp genome consists of 4633 scaffolds, with 96.6% of the assembly contained in nine scaffolds representing the nine haploid chromosomes of the species. Repetitive element analysis classified 52.3% of the assembly as repetitive, with the most common repeat identified as long terminal repeat retrotransposons. MAKER annotation of the final assembly yielded 22,832 putative gene models. Discussion When compared with quinoa, strong patterns of synteny support the hypothesis that cañahua is a close A‐genome diploid relative, and thus potentially a simplified model diploid species for genetic analysis and improvement of quinoa. Resequencing and phylogenetic analysis of a diversity panel of cañahua accessions suggests that coordinated efforts are needed to enhance genetic diversity conservation within ex situ germplasm collections.https://doi.org/10.1002/aps3.11300AmaranthaceaeAndean cropsChenopodium pallidicauleHi‐Cproximity‐guided assembly
collection DOAJ
language English
format Article
sources DOAJ
author Hayley Mangelson
David E. Jarvis
Patricia Mollinedo
Oscar M. Rollano‐Penaloza
Valeria D. Palma‐Encinas
Luz Rayda Gomez‐Pando
Eric N. Jellen
Peter J. Maughan
spellingShingle Hayley Mangelson
David E. Jarvis
Patricia Mollinedo
Oscar M. Rollano‐Penaloza
Valeria D. Palma‐Encinas
Luz Rayda Gomez‐Pando
Eric N. Jellen
Peter J. Maughan
The genome of Chenopodium pallidicaule: An emerging Andean super grain
Applications in Plant Sciences
Amaranthaceae
Andean crops
Chenopodium pallidicaule
Hi‐C
proximity‐guided assembly
author_facet Hayley Mangelson
David E. Jarvis
Patricia Mollinedo
Oscar M. Rollano‐Penaloza
Valeria D. Palma‐Encinas
Luz Rayda Gomez‐Pando
Eric N. Jellen
Peter J. Maughan
author_sort Hayley Mangelson
title The genome of Chenopodium pallidicaule: An emerging Andean super grain
title_short The genome of Chenopodium pallidicaule: An emerging Andean super grain
title_full The genome of Chenopodium pallidicaule: An emerging Andean super grain
title_fullStr The genome of Chenopodium pallidicaule: An emerging Andean super grain
title_full_unstemmed The genome of Chenopodium pallidicaule: An emerging Andean super grain
title_sort genome of chenopodium pallidicaule: an emerging andean super grain
publisher Wiley
series Applications in Plant Sciences
issn 2168-0450
publishDate 2019-11-01
description Premise Cañahua is a semi‐domesticated crop grown in high‐altitude regions of the Andes. It is an A‐genome diploid (2n = 2x = 18) relative of the allotetraploid (AABB) Chenopodium quinoa and shares many of its nutritional benefits. Cañahua seed contains a complete protein, a low glycemic index, and offers a wide variety of nutritionally important vitamins and minerals. Methods The reference assembly was developed using a combination of short‐ and long‐read sequencing techniques, including multiple rounds of Hi‐C–based proximity‐guided assembly. Results The final assembly of the ~363‐Mbp genome consists of 4633 scaffolds, with 96.6% of the assembly contained in nine scaffolds representing the nine haploid chromosomes of the species. Repetitive element analysis classified 52.3% of the assembly as repetitive, with the most common repeat identified as long terminal repeat retrotransposons. MAKER annotation of the final assembly yielded 22,832 putative gene models. Discussion When compared with quinoa, strong patterns of synteny support the hypothesis that cañahua is a close A‐genome diploid relative, and thus potentially a simplified model diploid species for genetic analysis and improvement of quinoa. Resequencing and phylogenetic analysis of a diversity panel of cañahua accessions suggests that coordinated efforts are needed to enhance genetic diversity conservation within ex situ germplasm collections.
topic Amaranthaceae
Andean crops
Chenopodium pallidicaule
Hi‐C
proximity‐guided assembly
url https://doi.org/10.1002/aps3.11300
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