The Streptochaeta Genome and the Evolution of the Grasses

The Streptochaeta Genome and the Evolution of the Grasses

In this work, we sequenced and annotated the genome of Streptochaeta angustifolia, one of two genera in the grass subfamily Anomochlooideae, a lineage sister to all other grasses. The final assembly size is over 99% of the estimated genome size. We find good collinearity with the rice genome and hav...

Full description

Bibliographic Details
Main Authors: Arun S. Seetharam, Yunqing Yu, Sébastien Bélanger, Lynn G. Clark, Blake C. Meyers, Elizabeth A. Kellogg, Matthew B. Hufford
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-10-01
Series:Frontiers in Plant Science
Subjects:
Streptochaeta angustifolia
grass evolution
spikelet
small RNA
APETALA2-like
R2R3 MYB
Online Access:https://www.frontiersin.org/articles/10.3389/fpls.2021.710383/full
id doaj-84300219255649e5b22693e0815ab99c
record_format Article
spelling doaj-84300219255649e5b22693e0815ab99c2021-10-04T07:17:48ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2021-10-011210.3389/fpls.2021.710383710383The Streptochaeta Genome and the Evolution of the GrassesArun S. Seetharam0Yunqing Yu1Sébastien Bélanger2Lynn G. Clark3Blake C. Meyers4Blake C. Meyers5Elizabeth A. Kellogg6Matthew B. Hufford7Department of Ecology, Evolution, and Organismal Biology, Iowa State University, Ames, IA, United StatesDonald Danforth Plant Science Center, St. Louis, MO, United StatesDonald Danforth Plant Science Center, St. Louis, MO, United StatesDepartment of Ecology, Evolution, and Organismal Biology, Iowa State University, Ames, IA, United StatesDonald Danforth Plant Science Center, St. Louis, MO, United StatesDivision of Plant Sciences, University of Missouri, Columbia, MO, United StatesDonald Danforth Plant Science Center, St. Louis, MO, United StatesDepartment of Ecology, Evolution, and Organismal Biology, Iowa State University, Ames, IA, United StatesIn this work, we sequenced and annotated the genome of Streptochaeta angustifolia, one of two genera in the grass subfamily Anomochlooideae, a lineage sister to all other grasses. The final assembly size is over 99% of the estimated genome size. We find good collinearity with the rice genome and have captured most of the gene space. Streptochaeta is similar to other grasses in the structure of its fruit (a caryopsis or grain) but has peculiar flowers and inflorescences that are distinct from those in the outgroups and in other grasses. To provide tools for investigations of floral structure, we analyzed two large families of transcription factors, AP2-like and R2R3 MYBs, that are known to control floral and spikelet development in rice and maize among other grasses. Many of these are also regulated by small RNAs. Structure of the gene trees showed that the well documented whole genome duplication at the origin of the grasses (ρ) occurred before the divergence of the Anomochlooideae lineage from the lineage leading to the rest of the grasses (the spikelet clade) and thus that the common ancestor of all grasses probably had two copies of the developmental genes. However, Streptochaeta (and by inference other members of Anomochlooideae) has lost one copy of many genes. The peculiar floral morphology of Streptochaeta may thus have derived from an ancestral plant that was morphologically similar to the spikelet-bearing grasses. We further identify 114 loci producing microRNAs and 89 loci generating phased, secondary siRNAs, classes of small RNAs known to be influential in transcriptional and post-transcriptional regulation of several plant functions.https://www.frontiersin.org/articles/10.3389/fpls.2021.710383/fullStreptochaeta angustifoliagrass evolutionspikeletsmall RNAAPETALA2-likeR2R3 MYB
collection DOAJ
language English
format Article
sources DOAJ
author Arun S. Seetharam
Yunqing Yu
Sébastien Bélanger
Lynn G. Clark
Blake C. Meyers
Blake C. Meyers
Elizabeth A. Kellogg
Matthew B. Hufford
spellingShingle Arun S. Seetharam
Yunqing Yu
Sébastien Bélanger
Lynn G. Clark
Blake C. Meyers
Blake C. Meyers
Elizabeth A. Kellogg
Matthew B. Hufford
The Streptochaeta Genome and the Evolution of the Grasses
Frontiers in Plant Science
Streptochaeta angustifolia
grass evolution
spikelet
small RNA
APETALA2-like
R2R3 MYB
author_facet Arun S. Seetharam
Yunqing Yu
Sébastien Bélanger
Lynn G. Clark
Blake C. Meyers
Blake C. Meyers
Elizabeth A. Kellogg
Matthew B. Hufford
author_sort Arun S. Seetharam
title The Streptochaeta Genome and the Evolution of the Grasses
title_short The Streptochaeta Genome and the Evolution of the Grasses
title_full The Streptochaeta Genome and the Evolution of the Grasses
title_fullStr The Streptochaeta Genome and the Evolution of the Grasses
title_full_unstemmed The Streptochaeta Genome and the Evolution of the Grasses
title_sort streptochaeta genome and the evolution of the grasses
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2021-10-01
description In this work, we sequenced and annotated the genome of Streptochaeta angustifolia, one of two genera in the grass subfamily Anomochlooideae, a lineage sister to all other grasses. The final assembly size is over 99% of the estimated genome size. We find good collinearity with the rice genome and have captured most of the gene space. Streptochaeta is similar to other grasses in the structure of its fruit (a caryopsis or grain) but has peculiar flowers and inflorescences that are distinct from those in the outgroups and in other grasses. To provide tools for investigations of floral structure, we analyzed two large families of transcription factors, AP2-like and R2R3 MYBs, that are known to control floral and spikelet development in rice and maize among other grasses. Many of these are also regulated by small RNAs. Structure of the gene trees showed that the well documented whole genome duplication at the origin of the grasses (ρ) occurred before the divergence of the Anomochlooideae lineage from the lineage leading to the rest of the grasses (the spikelet clade) and thus that the common ancestor of all grasses probably had two copies of the developmental genes. However, Streptochaeta (and by inference other members of Anomochlooideae) has lost one copy of many genes. The peculiar floral morphology of Streptochaeta may thus have derived from an ancestral plant that was morphologically similar to the spikelet-bearing grasses. We further identify 114 loci producing microRNAs and 89 loci generating phased, secondary siRNAs, classes of small RNAs known to be influential in transcriptional and post-transcriptional regulation of several plant functions.
topic Streptochaeta angustifolia
grass evolution
spikelet
small RNA
APETALA2-like
R2R3 MYB
url https://www.frontiersin.org/articles/10.3389/fpls.2021.710383/full
work_keys_str_mv AT arunsseetharam thestreptochaetagenomeandtheevolutionofthegrasses
AT yunqingyu thestreptochaetagenomeandtheevolutionofthegrasses
AT sebastienbelanger thestreptochaetagenomeandtheevolutionofthegrasses
AT lynngclark thestreptochaetagenomeandtheevolutionofthegrasses
AT blakecmeyers thestreptochaetagenomeandtheevolutionofthegrasses
AT blakecmeyers thestreptochaetagenomeandtheevolutionofthegrasses
AT elizabethakellogg thestreptochaetagenomeandtheevolutionofthegrasses
AT matthewbhufford thestreptochaetagenomeandtheevolutionofthegrasses
AT arunsseetharam streptochaetagenomeandtheevolutionofthegrasses
AT yunqingyu streptochaetagenomeandtheevolutionofthegrasses
AT sebastienbelanger streptochaetagenomeandtheevolutionofthegrasses
AT lynngclark streptochaetagenomeandtheevolutionofthegrasses
AT blakecmeyers streptochaetagenomeandtheevolutionofthegrasses
AT blakecmeyers streptochaetagenomeandtheevolutionofthegrasses
AT elizabethakellogg streptochaetagenomeandtheevolutionofthegrasses
AT matthewbhufford streptochaetagenomeandtheevolutionofthegrasses
_version_ 1716844290665086976

Similar Items