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1. Candidate gene association mapping of Arabidopsis flowering time

Author

Ehrenreich, Ian M., Hanzawa, Yoshie, Lucy Chou, Roe, Judith L., Kover, Paula X., and Purugganan, Michael D.

Subjects
Arabidopsis -- Genetic aspects, Multifactorial traits -- Research, Plants, Flowering of -- Research, Plant genetics -- Research, Single nucleotide polymorphisms -- Research, Biological sciences
Published
2009

2. The nature of selection during plant domestication

Author

Purugganan, Michael D. and Fuller, Dorian Q.

Subjects
Research, Domestication -- Research, Natural selection -- Research, Evolutionary adaptation -- Research, Adaptation (Biology) -- Research
Abstract

Domestication is a complex evolutionary process in which human use of plant and animal species leads to morphological and physiological changes that distinguish domesticated taxa from their wild ancestors (1). [...], Plant domestication is an outstanding example of plant-animal co-evolution and is a far richer model for studying evolution than is generally appreciated. There have been numerous studies to identify genes associated with domestication, and archaeological work has provided a clear understanding of the dynamics of human cultivation practices during the Neolithic period. Together, these have provided a better understanding of the selective pressures that accompany crop domestication, and they demonstrate that a synthesis from the twin vantage points of genetics and archaeology can expand our understanding of the nature of evolutionary selection that accompanies domestication.

Published
2009

4. The extent of linkage disequilibrium in rice (Oryza sativa L.)

Author

Mather, Kristie A., Caicedo, Ana L., Polato, Nicholas R., Olsen, Kenneth M., McCouch, Susan, and Purugganan, Michael D.

Subjects
Rice -- Genetic aspects, Linkage (Genetics) -- Evaluation, Genomes -- Properties, Biological sciences
Abstract

Despite its status as one of the world's major crops, linkage disequilibrium (LD) patterns have not been systematically characterized across the genome of Asian rice (Oryza sativa). Such information is critical to fully exploit the genome sequence for mapping complex traits using association techniques. Here we characterize LD in five 500-kb regions of the rice genome in three major cultivated rice varieties (indica, tropical japonica, and temperate japonica) and in the wild ancestor of Asian rice, Oryza rufipogon. Using unlinked SNPs to determine the amount of background linkage disequilibrium in each population, we find that the extent of LD is greatest in temperate japonica (probably >500 kb), followed by tropical japonica (~150 kb) and indica (~75 kb). LD extends over a shorter distance in O. rufipogon ([much less than] 440 kb) than in any of the O. sativa groups assayed here. The differences in the extent of LD among these groups are consistent with differences in outcrossing and recombination rate estimates. As well as heterogeneity between groups, our results suggest variation in LD patterns among genomic regions. We demonstrate the feasibility of genomewide association mapping in cultivated Asian rice using a modest number of SNPs.

Published
2007

5. Molecular phylogeography of domesticated barley traces expansion of agriculture in the old world

Author

Saisho, Daisuke and Purugganan, Michael D.

Subjects
Barley -- Genetic aspects, Barley -- Distribution, Agriculture -- Research, Population genetics -- Research, Company distribution practices, Biological sciences
Abstract

Barley (Hordeum vulgare ssp. vulgare) was first cultivated 10,500 years ago in the Fertile Crescent and is one of the founder crops of Eurasian agriculture. Phylogeographic analysis of five nuclear loci and morphological assessment of two traits in >250 domesticated barley accessions reveal that landraces found in South and East Asia are genetically distinct from those in Europe and North Africa. A Bayesian population structure assessment method indicates that barley accessions are subdivided into six clusters and that barley landraces from 10 different geographical regions of Eurasia and North Africa show distinct patterns of distribution across these clusters. Using haplotype frequency data, it appears that the Europe/ North Africa landraces are most similar to the Near East population ([F.sub.ST] = 0.15) as well as to wild barley ([F.sub.ST] = 0.11) and are strongly differentiated from all other Asian populations ([F.sub.ST] = 0.34-0.74). A neighbor-joining analysis using these [F.sub.ST] estimates also supports a division between European, North African, and Near East barley types from more easterly Asian accessions. There is also differentiation in the presence of a naked caryopsis and spikelet row number between eastern and western barley accessions. The data support the differential migration of barley from two domestication events that led to the origin of barley--one in the Fertile Crescent and another farther east, possibly at the eastern edge of the Iranian Plateau--with European and North African barley largely originating from the former and much of Asian barley arising from the latter. This suggests that cultural diffusion or independent innovation is responsible for the expansion of agriculture to areas of South and East Asia during the Neolithic revolution.

Published
2007

6. The genetic architecture of shoot branching in Arabidopsis thaliana: a comparative assessment of candidate gene associations vs. quantitative trait locus mapping

Author

Ehrenreich, Ian M., Stafford, Phillip A., and Purugganan, Michael D.

Subjects
Arabidopsis -- Genetic aspects, Growth (Plants) -- Genetic aspects, Genetic epistasis -- Evaluation, Biological sciences
Abstract

Association mapping focused on 36 genes involved in branch development was used to identify candidate genes for variation in shoot branching in Arabidopsis thaliana. The associations between four branching traits and moderate-frequency haplogroups at the studied genes were tested in a panel of 96 accessions from a restricted geographic range in Central Europe. Using a mixed-model association-mapping method, we identified three loci--MORE AXILLARY GROWTH 2 (MAX2), MORE AXILLARY GROWFH 3 (MAX3), and SUPERSHOOT 1 (SPS1)--that were significantly associated with branching variation. On the basis of a more extensive examination of the MAX2 and MAX3 genomic regions, we find that linkage disequilibrium in these regions decays within ~10 kb and trait associations localize to the candidate genes in these regions. When the significant associations are compared to relevant quantitative trait loci (QTL) from previous Ler x Col and Cvi x Ler recombinant inbred line (RIL) mapping studies, no additive QTL overlapping these candidate genes are observed, although epistatic QTL for branching, including one that spans the SPS1, are found. These results suggest that epistasis is prevalent in determining branching variation in A. thaliana and may need to be considered in linkage disequilibrium mapping studies of genetically diverse accessions.

Published
2007

7. The molecular genetic basis of plant adaptation

Author

Ehrenreich, Ian M. and Purugganan, Michael D.

Subjects
Plant genetics -- Research, Natural selection -- Research, Biological sciences
Abstract

How natural selection on adaptive traits is filtered to the genetic level remains largely unknown. Theory and quantitative trait locus (QTL) mapping have provided insights into the number and effect of genes underlying adaptations, but these results have been hampered by questions of applicability to real biological systems and poor resolution, respectively. Advances in molecular technologies have expedited the cloning of adaptive genes through both forward and reverse genetic approaches. Forward approaches start with adaptive traits and attempt to characterize their underlying genetic architectures through linkage disequilibrium mapping, QTL mapping, and other methods. Reverse screens search large sequence data sets for genes that possess the signature of selection. Though both approaches have been successful in identifying adaptive genes in plants, very few, if any. of these adaptations' molecular buses have been fully resolved. The continued isolation of plant adaptive genes will lead to a more comprehensive understanding of natural selection's effect on genes and genomes. Key words: evolutionary genetics; genetic variation: genomics; natural selection; plant molecular evolution; polymorphisms.

Published
2006

8. Selection under domestication: evidence for a sweep in the rice Waxy genomic region

Author

Olsen, Kenneth M., Caicedo, Ana L., Polato, Nicholas, McClung, Anna, McCouch, Susan, and Purugganan, Michael D.

Subjects
Rice -- Genetic aspects, Nucleotide sequence -- Research, Biological sciences
Abstract

Rice (Oryza sativa) was cultivated by Asian Neolithic farmers > 11,000 years ago, and different cultures have selected for divergent starch qualities in the rice grain during and after the domestication process. An intron 1 splice donor site mutation of the Waxy gene is responsible for the absence of amylose in glutinous rice varieties. This mutation appears to have also played an important role in the origin of low amylose, nonglutinous temperate japonica rice varieties, which form a primary component of Northeast Asian cuisines. Waxy DNA sequence analyses indicate that the splice donor mutation is prevalent in temperate japonica rice varieties, but rare or absent in tropical japonica, indica, aus, and aromatic varieties. Sequence analysis across a 500-kb genomic region centered on Wax), reveals patterns consistent with a selective sweep in the temperate japonicas associated with the mutation. The size of the selective sweep (>250 kb) indicates very strong selection in this region, with an inferred selection coefficient that is higher than similar estimates from maize domestication genes or wild species. These findings demonstrate that selection pressures associated with crop domestication regimes can exceed by one to two orders of magnitude those observed for genes under even strong selection in natural systems.

Published
2006

9. Vernalization sensitivity in Arabidopsis thaliana (Brassicaceae): the effects of latitude and FLC variation

Author

Stinchcombe, John R., Caicedo, Ana L., Hopkins, Robin, Mays, Charlotte, Boyd, Elizabeth W., Purugganan, Michael D., and Schmitt, Johanna

Subjects
Arabidopsis thaliana -- Genetic aspects, Vegetation and climate -- Research, Vernalization -- Research, Biological sciences
Abstract

Latitudinal variation in climate is predicted to select for latitudinal differentiation in sensitivity to the environmental cues that signal plants to flower at the appropriate time for a given climate. In Arabidopsis thaliana, flowering is promoted by exposure to cold temperatures (vernalization), and several vernalization pathway loci are known. To test whether natural variation in vernalization sensitivity could account for a previously observed latitudinal cline in flowering time in A. thaliana, we exposed 21 European accessions to 0, 10, 20, or 30 d of vernalization and observed leaf number at flowering under short days in a growth chamber. We observed a significant latitudinal cline in vernalization sensitivity: southern accessions were more sensitive to vernalization than northern accessions. In addition, accessions that were late flowering in the absence of vernalization were more sensitive to vernalization cues. Allelic variation at the flowering time regulatory genc FLC was not associated with mean vernalization sensitivity, but one allele class exhibited greater variance in vernalization sensitivity. Key words: Brassicaceae; ecological genomics; FLC; flowering time; FRI; latitudinal cline; vernalization.

Published
2005

10. High-diversity genes in the Arabidopsis genome

Author

Cork, Jennifer M. and Purugganan, Michael D.

Subjects
Arabidopsis -- Research, Arabidopsis -- Genetic aspects, Genetics -- Research, Genomics, Genetic research, Biological sciences
Abstract

High-diversity genes represent an important class of loci in organismal genomes. Since elevated levels of nucleotide variation are a key component of the molecular signature for balancing selection or local adaptation, high-diversity genes may represent loci whose alleles are selectively maintained as balanced polymorphisms. Comparison of 4300 random shotgun sequence fragments of the Arabidopsis thaliana L er ecotype genome with the whole genomic sequence of the Col-0 ecotype identified 60 genes with putatively high levels of intraspecific variability. Eleven of these genes were sequenced in multiple A. thaliana accessions, 3 of which were found to display elevated levels of nucleotide polymorphism. These genes encode the myb-like transcription factor MYB103, a putative soluble starch synthase I, and a homeodomainleucine zipper transcription factor. Analysis of these genes and 4-7 flanking genes in 14-20 A. thaliana ecotypes revealed that two of these loci show other characteristics of balanced polymorphisms, including broad peaks of nucleotide diversity spanning multiple linked genes and an excess of intermediate-frequency polymorphisms. Scanning genomes for high-diversity genomic regions may be useful in approaches to adaptive trait locus mapping for uncovering candidate balanced polymorphisms.

Published
2005

11. Evolutionary and ecological genomics of Arabidopsis (1)

Author

Shiumizu, Kentaro and Purugganan, Michael D.

Subjects
Phanerogams -- Physiological aspects, Phanerogams -- Genetic aspects, Arabidopsis -- Physiological aspects, Arabidopsis -- Genetic aspects, Plants -- Reproduction, Germination, Genomics, Biological sciences, Science and technology
Published
2005

12. Darwinian selection on a selfing locus

Author

Shimizu, Kentaro K., Cork, Jennifer M., Caicedo, Ana L., Mays, Charlotte A., Moore, Richard C., Olsen, Kenneth M., Ruzsa, Stephanie, Coop, Graham, Bustamante, Carlos D., Awadalla, Philip, and Purugganan, Michael D.

Subjects
Research, Evolution (Biology) -- Research, Evolution -- Research
Abstract

The shift from outcrossing to self-fertilization (selfing) is classically regarded as one of the most prevalent evolutionary transitions in flowering plants (1). The extent of selfing and outcrossing can have [...], The shift to self-pollination is one of the most prevalent evolutionary transitions in flowering plants. In the selfing plant Arabidopsis thaliana, pseudogenes at the SCR and SRK self-incompatibility loci are believed to underlie the evolution of self-fertilization. Positive directional selection has driven the evolutionary fixation of pseudogene alleles of SCR, leading to substantially reduced nucleotide variation. Coalescent simulations indicate that this adaptive event may have occurred very recently and is possibly associated with the post-Pleistocene expansion of A. thaliana from glacial refugia. This suggests that ancillary morphological innovations associated with self-pollination can evolve rapidly after the inactivation of the self-incompatibility response.

Published
2004

13. Epistatic interaction between Arabidopsis FRI and FLC flowering time genes generates a latitudinal cline in a life history trait

Author

Caicedo, Ana L., Stinchcombe, John R., Olsen, Kenneth M., Schmitt, Johanna, and Purugganan, Michael D.

Subjects
Genetics -- Research, Arabidopsis -- Research, Science and technology
Abstract

Epistatic gene interactions are believed to be a major factor in the genetic architecture of evolutionary diversification. In Arabidopsis thaliana, the FRI and FLC genes mechanistically interact to control flowering time, and here we show that this epistatic interaction also contributes to a latitudinal cline in this life history trait within the species. Two major FLC haplogroups ([FLC.sup.A] and [FLC.sup.B]) are associated with flowering time variation in A. thaliana in field conditions, but only in the presence of putatively functional FRI alleles. Significant differences in latitudinal distribution of FLC haplogroups in Eurasia and North Africa also depend on the FRI genotype. There is significant linkage disequilibrium between FRI and FLC despite their location on separate chromosomes. Although no nonsynonymous polymorphisms differentiate [FLC.sup.A] and [FLC.sup.B], vernalization induces the expression of an alternatively spliced FLC transcript that encodes a variant protein with a radical amino acid replacement assodated with the two FLC haplogroups. Numerous polymorphisms differentiating the FLC haplogroups also occur in intronic regions implicated in the regulation of FLC expression. The features of the regulatory gene interaction between FRI and FLC in contributing to the latitudinal cline in A. thaliana flowering time are consistent with the maintenance of this interaction by epistatic selection. These results suggest that developmental genetic pathways and networks provide the molecular basis for epistasis, contributing to ecologically important phenotypic variation in natural populations and to the process of evolutionary diversification. rosette leaf number | alternative splicing | linkage disequilibrium | epistatic selection | candidate gene association

Published
2004

14. The evolution of plant development

Author

Friedman, William E., Moore, Richard C., and Purugganan, Michael D.

Subjects
Botany -- Identification and classification, Botany -- Nomenclature, Botany -- Anatomy, Roots (Botany), Meristem, Flowers, Evolution, Biological sciences
Abstract

The last decade has witnessed a resurgence in the study of the evolution of plant development, combining investigations in systematics, developmental morphology, molecular developmental genetics, and molecular evolution. The integration of phylogenetic studies, structural analyses of fossil and extant taxa, and molecular developmental genetic information allows the formulation of explicit and testable hypotheses for the evolution of morphological characters. These comprehensive approaches provide opportunities to dissect the evolution of major developmental transitions among land plants, including those associated with apical meristems, the origins of the root/shoot dichotomy, diversification of leaves, and origin and subsequent modification of flower structure. The evolution of these major developmental innovations is discussed within both phylogenetic and molecular genetic contexts. We conclude that it is the combination of these approaches that will lead to the greatest understanding of the evolution of plant development. Key words: apical meristem; flower; leaf: origin; plant systematics; root: shoot.

Published
2004

15. Linkage disequilibrium mapping of Arabidopsis CRY2 flowering time alleles

Author

Olsen, Kenneth M., Halldorsdottir, Solveig S., Stinchcombe, John R., Weinig, Cynthia, Schmitt, Johanna, and Purugganan, Michael D.

Subjects
Arabidopsis -- Research, Biological sciences
Abstract

The selfing plant Arabidopsis thaliana has been proposed to be well suited for linkage disequilibrium (LD) mapping as a means of identifying genes underlying natural trait variation. Here we apply LD mapping to examine haplotype variation in the genomic region of the photoperiod receptor CRYPTOCHROME2 and associated flowering time variation. CRY2DNA sequences reveal strong LD and the existence of two highly differentiated haplogroups (A and B) across the gene; in addition, a haplotype possessing a radical glutamineto-serine replacement ([A.sup.s]) occurs within the more common haplogroup. Growth chamber and field experiments using an unstratified population of 95 ecotypes indicate that tinder short-day photoperiod, the [A.sup.s] and B haplogroups are both highly significantly associated with early flowering. Data from six genes flanking CRY2 indicate that these haplogroups are limited to an ~65-kb genomic region around CRY2. Whereas the B haplogroup cannot be delimited to < 16 kb around CRY2, the [A.sup.s] haplogroup is characterized almost exclusively by the nucleotide polymorphisms directly associated with the serine replacement in CRY2; this finding strongly suggests that the serine substitution is directly responsible for the [A.sup.s] early flowering phenotype. This study demonstrates the utility of LD mapping for elucidating the genetic basis of natural, ecologically relevant variation in Arabidopsis.

Published
2004

16. The evolution of molecular genetic pathways and networks

Author

Cork, Jennifer M. and Purugganan, Michael D.

Subjects
Network software -- Analysis, Network software, Biological sciences
Abstract

The influence of genetic pathway and network structures on the action of evolutionary forces is discussed. The relationships between network organization, topological architecture and evolutionary dynamics are investigated.

Published
2004

17. A latitudinal cline in flowering time in Arabidopsis thaliana modulated by the flowering time gene FRIGIDA

Author

Stinchcombe, John R., Weinig, Cynthia, Ungerer, Mark, Olsen, Kenneth M., Mays, Charlotte, Halldorsdottir, Solveig S., Purugganan, Michael D., and Schmitt, Johanna

Subjects
Arabidopsis thaliana -- Research, Science and technology
Abstract

A latitudinal cline in flowering time in accessions of Arabidopsis thaliana has been widely predicted because the environmental cues that promote flowering vary systematically with latitude, but evidence for such clines has been lacking. Here, we report evidence of a significant latitudinal dine in flowering time among 70 Northern European and Mediterranean ecotypes when grown under ecologically realistic conditions in a common garden environment. The detected cline, however, is found only in ecotypes with alleles of the flowering time gene FRIGIDA (FRI) that lack major deletions that would disrupt protein function, whereas there is no relationship between flowering time and latitude of origin among accessions with FRI alleles containing such deletions. Analysis of climatological data suggests that late flowering in accessions with putatively functional FRI was associated with reduced January precipitation at the site of origin, consistent with previous reports of a positive genetic correlation between water use efficiency and flowering time in Arabidopsis, and the pleiotropic effects of FRI of increasing water use efficiency. In accessions collected from Southern latitudes, we detected that putatively functional FRI alleles were associated with accelerated flowering relative to accessions with nonfunctional FRI under the winter conditions of our experiment. These results suggest that the ecological function of the vernalization requirement conferred by FRI differs across latitudes. More generally, our results indicate that by combining ecological and molecular genetic data, it is possible to understand the forces acting on life history transitions at the level of specific loci.

Published
2004

18. The early stages of duplicate gene evolution

Author

Moore, Richard C. and Purugganan, Michael D.

Subjects
Genes -- Research, Science and technology
Abstract

Gene duplications are one of the primary driving forces in the evolution of genomes and genetic systems. Gene duplicates account for 8-20% of the genes in eukaryotic genomes, and the rates of gene duplication are estimated at between 0.2% and 2% per gene per million years. Duplicate genes are believed to be a major mechanism for the establishment of new gene functions and the generation of evolutionary novelty, yet very little is known about the early stages of the evolution of duplicated gene pairs. It is unclear, for example, to what extent selection, rather than neutral genetic drift, drives the fixation and early evolution of duplicate loci. Analysis of recently duplicated genes in the Arabidopsis thaliana genome reveals significantly reduced species-wide levels of nucleotide polymorphisms in the progenitor and/or duplicate gene copies, suggesting that selective sweeps accompany the initial stages of the evolution of these duplicated gene pairs. Our results support recent theoretical work that indicates that fates of duplicate gene pairs may be determined in the initial phases of duplicate gene evolution and that positive selection plays a prominent role in the evolutionary dynamics of the very early histories of duplicate nuclear genes.

Published
2003

19. Genotype-environment interactions at quantitative trait loci affecting inflorescence development in Arabidopsis thaliana

Author

Ungerer, Mark C., Halldorsdottir, Solveig S., Purugganan, Michael D., and Mackay, Trudy F.C.

Subjects
Genetics -- Research, Genetic polymorphisms -- Research, Biological sciences
Abstract

Phenotypic plasticity and genotype-environment interactions (GEI) play a prominent role in plant morphological diversity and in the potential functional capacities of plant life-history traits. The genetic basis of plasticity and GEI, however, is poorly understood in most organisms. In this report, inflorescence development patterns in Arabidopsis thaliana were examined under different, ecologically relevant photoperiod environments for two recombinant inbred mapping populations (Ler X Col and Cvi X Ler) using a combination of quantitative genetics and quantitative trait locus (QTL) mapping. Plasticity and GEI were regularly observed for the majority of 13 inflorescence traits. These observations can be attributable (at least partly) to variable effects of specific QTL. Pooled across traits, 12/44 (27.3%) and 32/62 (51.6%) of QTL exhibited significant QTL X environment interactions in the Ler X Col and Cvi X Ler lines, respectively. These interactions were attributable to changes in magnitude of effect of QTL more often than to changes in rank order (sign) of effect. Multiple QTL X environment interactions (in Cvi X Ler) clustered in two genomic regions on chromosomes 1 and 5, indicating a disproportionate contribution of these regions to the phenotypic patterns observed. High-resolution mapping will be necessary to distinguish between the alternative explanations of pleiotropy and tight linkage among multiple genes.

Published
2003

20. Heterogeneous selection at specific loci in natural environments in Arabidopsis thaliana

Author

Weinig, Cynthia, Dorn, Lisa A., Kane, Nolan C., German, Zachary M., Halldorsdottir, Solveig S., Ungerer, Mark C., Toyonaga, Yuko, Mackay, Trudy F.C., Purugganan, Michael D., and Schmitt, Johanna

Subjects
Genetics -- Research, Plants -- Research, Biological sciences
Abstract

Genetic variation for quantitative traits is often greater than that expected to be maintained by mutation in the face of purifying natural selection. One possible explanation for this observed variation is the action of heterogeneous natural selection in the wild. Here we report that selection on quantitative trait loci (QTL) for fitness traits in the model plant species Arabidopsis thaliana differs among natural ecological settings and genetic backgrounds. At one QTL, the allele that enhanced the viability of fall-germinating seedlings in North Carolina reduced the fecundity of spring-germinating seedlings in Rhode Island. Several other QTL experienced strong directional selection, but only in one site and seasonal cohort. Thus, different loci were exposed to selection in different natural environments. Selection on allelic variation also depended upon the genetic background. The allelic fitness effects of two QTL reversed direction depending on the genotype at the other locus. Moreover, alternative alleles at each of these loci caused reversals in the allelic fitness effects of a QTL closely linked to TFL1, a candidate developmental gene displaying nucleotide sequence polymorphism consistent with balancing selection. Thus, both environmental heterogeneity and epistatic selection may maintain genetic variation for fitness in wild plant species.

Published
2003

22. Molecular population genetics of the Arabidopsis CLAVATA2 region: the genomic scale of variation and selection in a selfing species

Author

Shepard, Kristen A. and Purugganan, Michael D.

Subjects
Arabidopsis -- Genetic aspects, Nucleotides -- Research, Biological sciences
Abstract

The Arabidopsis thaliana CLAVATA2 (CLV2) gene encodes a leucine-rich repeat protein that regulates the development of the shoot meristem. The levels and patterns of nucleotide variation were assessed for CLV2 and 10 flanking genes that together span a 40-kb region of chromosome I. A total of 296 out of 7959 sequenced nucleotide sites were polymorphic. The mean levels of sequence diversity of the contiguous genes in this region are approximately twofold higher than those of other typical Arabidopsis nuclear loci. There is, however, wide variation in the levels and patterns of sequence variation among the 11 linked genes in this region, and adjacent genes appear to be subject to contrasting evolutionary forces. CLV2 has the highest levels of nucleotide variation in this region, a significant excess of intermediate frequency polymorphisms, and significant levels of intragenic linkage disequilibrium. Most alleles at CLV2 are found in one of three haplotype groups of moderate (>15%) frequency. These features suggest that CLV2 may harbor a balanced polymorphism.

Published
2003

23. Selection on rapidly evolving proteins in the Arabidopsis genome

Author

Barrier, Marianne, Bustamante, Carlos D., Yu, Jiaye, and Purugganan, Michael D.

Subjects
Arabidopsis thaliana -- Research, Arabidopsis thaliana -- Genetic aspects, Plant genetics -- Research, Biological sciences
Abstract

Genes that have undergone positive or diversifying selection are likely to be associated with adaptive divergence between species. One indicator of adaptive selection at the molecular level is an excess of amino acid replacement fixed differences per replacement site relative to the number of synonymous fixed differences per synonymous site (to [omega] = [K.sub.a]/[K.sub.s]). We used an evolutionary expressed sequence tag (EST) approach to estimate the distribution of [omega] among 304 orthologous loci between Arabidopsis thaliana and A. lyrata to identify genes potentially involved in the adaptive divergence between these two Brassicaceae species. We find that 14 of 304 genes (~5%) have an estimated [omega] > 1 and are candidates for genes with increased selection intensities. Molecular population genetic analyses of 6 of these rapidly evolving protein loci indicate that, despite their high levels of between-species nonsynonymous divergence, these genes do not have elevated levels of intraspecific replacement polymorphisms compared to previously studied genes. A hierarchical Bayesian analysis of protein-coding region evolution within and between species also indicates that the selection intensities of these genes are elevated compared to previously studied A. thaliana nuclear loci.

Published
2003

24. Novel loci control variation in reproductive timing in Arabidopsis thaliana in natural environments

Author

Weinig, Cynthia, Ungerer, Mark C., Dorn, Lisa A., Kane, Nolan C., Toyonaga, Yuko, Halldorsdottir, Solveig S., Mackay, Trudy F.C., Purugganan, Michael D., and Schmitt, Johanna

Subjects
Arabidopsis thaliana -- Genetic aspects, Genetic research, Biological sciences
Abstract

Molecular biologists are rapidly characterizing the genetic basis of flowering in model species such as Arabidopsis thaliana. However, it is not clear how the developmental pathways identified in controlled environments contribute to variation in reproductive timing in natural ecological settings. Here we report the first study of quantitative trait loci (QTL) for date of bolting (the transition from vegetative to reproductive growth) in A. thaliana in natural seasonal field environments and compare the results with those obtained under typical growth-chamber conditions. Two QTL specific to long days in the chamber were expressed only in spring-germinating cohorts in the field, and two loci specific to short days in the chamber were expressed only in fall-germinating cohorts, suggesting differential involvement of the photoperiod pathway in different seasonal environments. However, several other photoperiod-specific QTL with large effects in controlled conditions were undetectable in natural environments, indicating that expression of allelic variation at these loci was overridden by environmental factors specific to the field. Moreover, a substantial number of QTL with major effects on bolting date in one or more field environments were undetectable under controlled environment conditions. These novel loci suggest the involvement of additional genes in the transition to flowering under ecologically relevant conditions.

Published
2002

25. Molecular evidence on the origin and evolution of glutinous rice

Author

Olsen, Kenneth M. and Purugganan, Michael D.

Subjects
Rice -- Composition, Rice -- Genetic aspects, Evolution -- Genetic aspects, Gene mutations -- Genetic aspects, Biological diversity -- Genetic aspects, Biological sciences
Abstract

Glutinous rice is a major type of cultivated rice with long-standing cultural importance in Asia. A mutation in an intron 1 splice donor site of the Waxy gene is responsible for the change in endosperm starch leading to the glutinous phenotype. Here we examine an allele genealogy of the Waxy locus to trace the evolutionary and geographical origins of this phenotype. On the basis of 105 glutinous and nonglutinous landraces from across Asia, we find evidence that the splice donor mutation has a single evolutionary origin and that it probably arose in Southeast Asia. Nucleotide diversity measures indicate that the origin of glutinous rice is associated with reduced genetic variation characteristic of selection at the Waxy locus; comparison with an unlinked locus, RGRC2, confirms that this pattern is specific to Waxy. In addition, we find that many nonglutinous varieties in Northeast Asia also carry the splice donor site mutation, suggesting that partial suppression of this mutation may have played an important role in the development of Northeast Asian nonglutinous rice. This study demonstrates the utility of phylogeographic approaches for understanding trait diversification in crops, and it contributes to growing evidence on the importance of modifier loci in the evolution of domestication traits.

Published
2002

26. The cost of inbreeding in Arabidopsis

Author

Bustamante, Carlos D., Nielsen, Rasmus, Sawyer, Stanley A., Olsen, Kenneth M., Purugganan, Michael D., and Hartl, Daniel L.

Subjects
Analysis, Genetic aspects, Inbreeding -- Analysis -- Genetic aspects, Arabidopsis -- Genetic aspects -- Analysis
Abstract

Author(s): Carlos D. Bustamante [1, 2]; Rasmus Nielsen [3]; Stanley A. Sawyer [4]; Kenneth M. Olsen [5]; Michael D. Purugganan [5]; Daniel L. Hartl (corresponding author) [1] Population geneticists have [...]

Published
2002
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27. Contrasting evolutionary forces in the Arabidopsis thaliana floral developmental pathway

Author

Olsen, Kenneth M., Womack, Andrew, Garrett, Ashley R., Suddith, Jane I., and Purugganan, Michael D.

Subjects
Plants -- Development, Flowers -- Genetic aspects, Gene expression -- Analysis, Evolution -- Genetic aspects, Biological sciences
Abstract

The floral developmental pathway in Arabidopsis thaliana is composed of several interacting regulatory genes, including the inflorescence architecture gene TERMINAL FLOWER1 (TFL1), the floral meristem identity genes LEAFY (LFY), APETALA1 (AP1), and CAULIFLOWER (CAL), and the floral organ identity genes APETALA3 (AP3) and PISTILLATA (PI). Molecular population genetic analyses of these different genes indicate that the coding regions of AP3 and PI, as well as AP1 and CAL, share similar levels and patterns of nucleotide diversity. In contrast, the coding regions of TFL1 and LFY display a significant reduction in nucleotide variation, suggesting that these sequences have been subjected to a recent adaptive sweep. Moreover, the promoter of TFL1, unlike its coding region, displays high levels of diversity organized into two distinct haplogroups that appear to be maintained by selection. These results suggest that patterns of molecular evoution differ among regulatory genes in this developmental pathway, with the earlier acting genes exhibiting evidence of adaptive evolution.

Published
2002

28. Quantitative trait loci for inflorescence development in Arabidopsis thaliana

Author

Ungerer, Mark C., Halldorsdottir, Solveig S., Modliszewski, Jennifer L., Mackay, Trudy F. C., and Purugganan, Michael D.

Subjects
Plants -- Genetic aspects, Inflorescences -- Morphology, Biological sciences
Abstract

Variation in inflorescence development patterns is a central factor in the evolutionary ecology of plants. The genetic architectures of 13 traits associated with inflorescence developmental timing, architecture, rosette morphology, and fitness were investigated in Arabidopsis thaliana, a model plant system. There is substantial naturally occurring genetic variation for inflorescence development traits, with broad sense heritabilities computed from 21 Arabidopsis ecotypes ranging from 0.134 to 0.772. Genetic correlations are significant for most (64/78) pairs of traits, suggesting either pleiotropy or tight linkage among loci. Quantitative trait locus (QTL) mapping indicates 47 and 63 QTL for inflorescence developmental traits in Ler x Col and Cvi x Ler recombinant inbred mapping populations, respectively. Several QTL associated with different developmental traits map to the same Arabidopsis chromosomal regions, in agreement with the strong genetic correlations observed. Epistasis among QTL was observed only in the Cvi x Ler population, and only between regions on chromosomes 1 and 5. Examination of the completed Arabidopsis genome sequence in three QTL regions revealed between 375 and 783 genes per region. Previously identified flowering time, inflorescence architecture, floral meristem identity, and hormone signaling genes represent some of the many candidate genes in these regions.

Published
2002

29. The molecular evolution of development

Author

Purugganan, Michael D.

Subjects
Chemical evolution -- Research, Developmental genetics -- Research, Drosophila -- Genetic aspects, Biological sciences
Published
1998

30. Molecular population genetics of the Arabidopsis CAULIFLOWER regulatory gene: nonneutral evolution and naturally occurring variation in floral homeotic function

Author

Purugganan, Michael D. and Suddith, Jane I.

Subjects
Molecular genetics -- Research, Plant population genetics -- Research, Arabidopsis thaliana -- Genetic aspects, Genetic regulation -- Research, Flowers -- Genetic aspects, Science and technology
Abstract

The evolution of interspecies differences in morphology requires sufficient within-species variation in developmental regulatory systems on which evolutionary forces can act. Molecular analyses of naturally occurring alleles of the Arabidopsis thaliana CAULIFLOWER locus reveal considerable intraspecific diversity at this floral homeotic gene, and the McDonald-Kreitman test suggests that this gene is evolving in a nonneutral fashion, with an excess of intraspecific replacement polymorphisms. The naturally occurring molecular variation within this floral regulatory gene is associated with functionally different alleles, which can be distinguished phenotypically by their differential ability to direct floral meristem development.

Published
1998

32. Molecular evolution of magellan, a maize Ty3/gypsy-like retrotransposon

Author

Purugganan, Michael D. and Wessler, Susan R.

Subjects
Transposons -- Research, Chemical evolution -- Research, Science and technology
Abstract

The magellan transposable element contains the sequence and structural features of a Ty3/gypsy-like retrotransposon and facilitates the spontaneous 5.7-kb insertion in the maize wx-M allele. The element exists in all Zea species and Tripsacum andersonii, but is absent in other Tripsacum species, indicating its rapid evolution. This retrotransposon establishes itself in new taxa via interspecific hybridization.

Published
1994

33. A conserved mutation in an ethylene biosynthesis enzyme leads to andromonoecy in melons

Author

Boualem, Adnane, Fergany, Mohamed, Fernandez, Ronan, Troadec, Christelle, Martin, Antoine, Morin, Halima, Sari, Marie-Agnes, Collin, Fabrice, Flowers, Jonathan M., Pitrat, Michel, Purugganan, Michael D., Dogimont, Catherine, and Bendahmane, Abdelhafid

Subjects
Melons -- Genetic aspects, Melons -- Physiological aspects, Cloning -- Research, Gene mutations -- Research, Biosynthesis -- Genetic aspects, Plants -- Reproduction, Plants -- Physiological aspects, Plants -- Genetic aspects
Published
2008

35. The Evolutionary Biology of Plants

Author

Purugganan, Michael D.

Subjects
The Evolutionary Biology of Plants (Book), Books -- Book reviews, Science and technology
Abstract

Odilon Redon was a French symbolist artist who in the early 1900s began to execute a series of riotously colorful and decorative paintings that incorporated botanical subjects. Redon was intrigued [...]

Published
1998

37. Molecular population genetics and phenotypic diversification of two populations of the thermophilic cyanobacterium Mastigocladus laminosus

Author

Miller, Scott R., Purugganan, Michael D., and Curtis, Stephanie E.

Subjects
Bacteria, Thermophilic -- Genetic aspects, Bacteria, Thermophilic -- Physiological aspects, Phenotype -- Research, Gene flow -- Research, Nitrogen -- Fixation, Nitrogen -- Research, Biological sciences
Abstract

The distributions of genetic and phenotypic variation for two Yellowstone National Park populations of the heterocyst-forming cyanobacterium Mastigocladus laminosus that exhibit dramatic phenotypic differences as a result of environmental differences in nitrogen availability are investigated. Population genetic model suggest that local adaptation is mutation limited but also that the populations are expected to continue to diverge due to low migratory gene flow.

Published
2006

38. Accelerated regulatory gene evolution in an adaptive radiation

Author

Barrier, Marianne, Robichaux, Robert H., and Purugganan, Michael D.

Subjects
Chemical evolution -- Genetic aspects, Genetic regulation -- Analysis, Adaptation (Biology) -- Genetic aspects, Arabidopsis -- Genetic aspects, Science and technology
Abstract

The disparity between rates of morphological and molecular evolution remains a key paradox in evolutionary genetics. A proposed resolution to this paradox has been the conjecture that morphological evolution proceeds via diversification in regulatory loci, and that phenotypic evolution may correlate better with regulatory gene divergence. This conjecture can be tested by examining rates of regulatory gene evolution in species that display rapid morphological diversification within adaptive radiations. We have isolated homologues to the Arabidopsis APETALA3 (ASAP3/TM6) and APETALA1 (ASAP1) floral regulatory genes and the CHLOROPHYLL A/B BINDING PROTEIN9 (ASCAB9) photosynthetic structural gene from species in the Hawaiian silversword alliance, a premier example of plant adaptive radiation. We have compared rates of regulatory and structural gene evolution in the Hawaiian species to those in related species of North American tarweeds. Molecular evolutionary analyses indicate significant increases in nonsynonymous relative to synonymous nucleotide substitution rates in the ASAP3/TM6 and ASAP1 regulatory genes in the rapidly evolving Hawaiian species. By contrast, no general increase is evident in neutral mutation rates for these loci in the Hawaiian species. An increase in nonsynonymous relative to synonymous nucleotide substitution rate is also evident in the ASCAB9 structural gene in the Hawaiian species, but not to the extent displayed in the regulatory loci. The significantly accelerated rates of regulatory gene evolution in the Hawaiian species may reflect the influence of allopolyploidy or of selection and adaptive divergence. The analyses suggest that accelerated rates of regulatory gene evolution may accompany rapid morphological diversification in adaptive radiations.

Published
2001

39. Variation and Selection at the CAULIFLOWER Floral Homeotic Gene Accompanying the Evolution of Domesticated Brassica oleracea

Author

Purugganan, Michael D., Boyles, Abee L., and Suddith, Jane I.

Subjects
Botany -- Morphology, Plant population genetics -- Research, Molecular genetics -- Research, Plants -- Evolution, Biological sciences
Abstract

The evolution of plant morphologies during domestication events provides clues to the origin of crop species and the evolutionary genetics of structural diversification. The CAULIFLOWER gene, a floral regulatory locus, has been implicated in the cauliflower phenotype in both Arabidopsis thaliana and Brassica oleracea. Molecular population genetic analysis indicates that alleles carrying a nonsense mutation in exon 5 of the B. oleracea CAULIFLOWER (BoCAL) gene are segregating in both wild and domesticated B. oleracea subspecies. Alleles carrying this nonsense mutation are nearly fixed in B. oleracea ssp. botrytis (domestic cauliflower) and B. oleracea ssp. italica (broccoli), both of which show evolutionary modifications of inflorescence structures. Tests for selection indicate that the pattern of variation at this locus is consistent with positive selection at BoCAL in these two subspecies. This nonsense polymorphism, however, is also present in both B. oleracea ssp. acephala (kale) and B. oleracea ssp. oleracea (wild cabbage). These results indicate that specific alleles of BoCAL were selected by early farmers during the domestication of modified inflorescence structures in B. oleracea.

Published
2000

40. Accelerated electron transfer between metal complexes mediated by DNA

Author

Purugganan, Michael D., Kumar, Challa V., Turro, Nicholas J., and Barton, Jacqueline K.

Subjects
Research, DNA -- Research, Electron transport -- Research, Physical chemistry -- Research, Chemistry, Physical and theoretical -- Research
Abstract

Accelerated Electron Transfer Between Metal Complexes Mediated by DNA AN UNDERSTANDING OF HOW ELECTRONS are transferred over large distances is essential to the characterization of fundamental redox processes in biology [...]

Published
1988

41. Molecular population genetics of floral homeotic loci: departures from the equilibrium-neutral model at the APETALA3 and PISTILLATA genes of Arabidopsis thaliana

Author

Purugganan, Michael D. and Suddith, Jane I.

Subjects
Molecular genetics -- Research, Population genetics -- Research, Arabidopsis thaliana -- Research, Plant genetics -- Research, Biological sciences
Abstract

Molecular variation in genes that regulate development provides insights into the evolutionary processes that shape the diversification of morphogenetic pathways. Intraspecific sequence variation at the APETALA3 and PISTILLATA floral homeotic genes of Arabidopsis thaliana was analyzed to infer the extent and nature of diversity at these regulatory loci. Comparison of AP3 and PI diversity with three previously studied genes revealed several features in the patterning of nucleotide polymorphisms common between Arabidopsis nuclear loci, including an excess of low-frequency nucleotide polymorphisms and significantly elevated levels of intraspecific replacement variation. This pattern suggests that A. thaliana has undergone recent, rapid population expansion and now exists in small, inbred subpopulations. The elevated intraspecific replacement levels may thus represent slightly deleterious polymorphisms that differentiate distinct ecotypes. The distribution of replacement and synonymous changes in AP3 and PI core and noncore functional domains also indicates differences in the patterns of molecular evolution between these interacting floral regulatory genes.

Published
1999

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