TY - JOUR
T1 - Utilizing a comparative approach to assess genome evolution during diploidization in Artemisia tridentata, a keystone species of western North America
AU - Melton, Anthony E.
AU - Novak, Stephen J.
AU - Buerki, Sven
N1 - Publisher Copyright:
© 2024 Botanical Society of America.
PY - 2024/6
Y1 - 2024/6
N2 - Premise: Polyploidization is often followed by diploidization. Diploidization is generally studied using synthetic polyploid lines and/or crop plants, but rarely using extant diploids or nonmodel plants such as Artemisia tridentata. This threatened western North American keystone species has a large genome compared to congeneric Artemisia species; dominated by diploid and tetraploid cytotypes, with multiple origins of tetraploids with genome size reduction. Methods: The genome of an A. tridentata sample was resequenced to study genome evolution and compared to that of A. annua, a diploid congener. Three diploid genomes of A. tridentata were compared to test for multiple diploidization events. Results: The A. tridentata genome had many chromosomal rearrangements relative to that of A. annua, while large-scale synteny of A. tridentata chromosome 3 and A. annua chromosome 4 was conserved. The three A. tridentata genomes had similar sizes (4.19–4.2 Gbp), heterozygosity (2.24–2.25%), and sequence (98.73–99.15% similarity) across scaffolds, and in k-mer analyses, similar patterns of diploid heterozygous k-mers (AB = 41%, 47%, and 47%), triploid heterozygous k-mers (AAB = 18–21%), and tetraploid k-mers (AABB = 13–17%). Biallelic SNPs were evenly distributed across scaffolds for all individuals. Comparisons of transposable element (TE) content revealed differential enrichment of TE clades. Conclusions: Our findings suggest population-level TE differentiation after a shared polyploidization-to-diploidization event(s) and exemplify the complex processes of genome evolution. This research approached provides new resources for exploration of abiotic stress response, especially the roles of TEs in response pathways.
AB - Premise: Polyploidization is often followed by diploidization. Diploidization is generally studied using synthetic polyploid lines and/or crop plants, but rarely using extant diploids or nonmodel plants such as Artemisia tridentata. This threatened western North American keystone species has a large genome compared to congeneric Artemisia species; dominated by diploid and tetraploid cytotypes, with multiple origins of tetraploids with genome size reduction. Methods: The genome of an A. tridentata sample was resequenced to study genome evolution and compared to that of A. annua, a diploid congener. Three diploid genomes of A. tridentata were compared to test for multiple diploidization events. Results: The A. tridentata genome had many chromosomal rearrangements relative to that of A. annua, while large-scale synteny of A. tridentata chromosome 3 and A. annua chromosome 4 was conserved. The three A. tridentata genomes had similar sizes (4.19–4.2 Gbp), heterozygosity (2.24–2.25%), and sequence (98.73–99.15% similarity) across scaffolds, and in k-mer analyses, similar patterns of diploid heterozygous k-mers (AB = 41%, 47%, and 47%), triploid heterozygous k-mers (AAB = 18–21%), and tetraploid k-mers (AABB = 13–17%). Biallelic SNPs were evenly distributed across scaffolds for all individuals. Comparisons of transposable element (TE) content revealed differential enrichment of TE clades. Conclusions: Our findings suggest population-level TE differentiation after a shared polyploidization-to-diploidization event(s) and exemplify the complex processes of genome evolution. This research approached provides new resources for exploration of abiotic stress response, especially the roles of TEs in response pathways.
KW - Artemisia
KW - Asteraceae
KW - comparative genomics
KW - diploidization
KW - genome evolution
KW - keystone species
UR - http://www.scopus.com/inward/record.url?scp=85195195952&partnerID=8YFLogxK
U2 - 10.1002/ajb2.16353
DO - 10.1002/ajb2.16353
M3 - Article
C2 - 38826031
AN - SCOPUS:85195195952
SN - 0002-9122
VL - 111
JO - American Journal of Botany
JF - American Journal of Botany
IS - 6
M1 - e16353
ER -