The Colinearity of the Sh2/A1 Orthologous Region in Rice, Sorghum and Maize Is Interrupted and Accompanied by Genome Expansion in the Triticeae

Abstract The Sh2/A1 orthologous region of maize, rice, and sorghum contains five genes in the order Sh2, X1, X2, and two A1 homologs in tandem duplication. The Sh2 and A1 homologs are separated by ~20 kb in rice and sorghum and by ~140 kb in maize. We analyzed the fate of the Sh2/A1 region in large-genome species of the Triticeae (wheat, barley, and rye). In the Triticeae, synteny in the Sh2/A1 region was interrupted by a break between the X1 and X2 genes. The A1 and X2 genes remained colinear in homeologous chromosomes as in other grasses. The Sh2 and X1 orthologs also remained colinear but were translocated to a nonhomeologous chromosome. Gene X1 was duplicated on two nonhomeologous chromosomes, and surprisingly, a paralog shared homology much higher than that of the orthologous copy to the X1 gene of other grasses. No tandem duplication of A1 homologs was detected but duplication of A1 on a nonhomeologous barley chromosome 6H was observed. Intergenic distances expanded greatly in wheat compared to rice. Wheat and barley diverged from each other 12 million years ago and both show similar changes in the Sh2/A1 region, suggesting that the break in colinearity as well as X1 duplications and genome expansion occurred in a common ancestor of the Triticeae species.

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Expansion and Diversification of Fluorescent Protein Genes in Fifteen Acropora Species during the Evolution of Acroporid Corals

Genes ◽

10.3390/genes12030397 ◽

2021 ◽

Vol 12 (3) ◽

pp. 397

Author(s):

Rio Kashimoto ◽

Kanako Hisata ◽

Chuya Shinzato ◽

Noriyuki Satoh ◽

Eiichi Shoguchi

Keyword(s):

Tandem Duplication ◽

Common Ancestor ◽

Fluorescent Protein ◽

Fluorescent Proteins ◽

Gene Clusters ◽

Sea Surface ◽

Last Common Ancestor ◽

Synteny Analysis ◽

Genome Wide ◽

Genome Wide Survey

In addition to a purple, non-fluorescent chromoprotein (ChrP), fluorescent proteins (FPs) account for the vivid colors of corals, which occur in green (GFP), cyan (CFP), and red (RFP) FPs. To understand the evolution of the coral FP gene family, we examined the genomes of 15 Acropora species and three confamilial taxa. This genome-wide survey identified 219 FP genes. Molecular phylogeny revealed that the 15 Acropora species each have 9–18 FP genes, whereas the other acroporids examined have only two, suggesting a pronounced expansion of the FP genes in the genus Acropora. The data estimates of FP gene duplication suggest that the last common ancestor of the Acropora species that survived in the period of high sea surface temperature (Paleogene period) has already gained 16 FP genes. Different evolutionary histories of lineage-specific duplication and loss were discovered among GFP/CFPs, RFPs, and ChrPs. Synteny analysis revealed core GFP/CFP, RFP, and ChrP gene clusters, in which a tandem duplication of the FP genes was evident. The expansion and diversification of Acropora FPs may have contributed to the present-day richness of this genus.

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A new DNA extraction method for high-throughput marker analysis in a large-genome species such as Triticum aestivum

Plant Breeding ◽

10.1046/j.1439-0523.2001.00615.x ◽

2001 ◽

Vol 120 (4) ◽

pp. 354-356 ◽

Cited By ~ 167

Author(s):

N. Stein ◽

G. Herren ◽

B. Keller

Keyword(s):

Triticum Aestivum ◽

Dna Extraction ◽

High Throughput ◽

Extraction Method ◽

Genome Species ◽

Large Genome ◽

Dna Extraction Method ◽

Marker Analysis

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Divergent Evolution of (??)8-Barrel Enzymes

Biological Chemistry ◽

10.1515/bc.2001.163 ◽

2001 ◽

Vol 382 (9) ◽

pp. 1315-1320 ◽

Cited By ~ 27

Author(s):

M. Henn-Sax ◽

B. Höcker ◽

M. Wilmanns ◽

R. Sterner

Keyword(s):

Amino Acid ◽

Tandem Duplication ◽

Common Ancestor ◽

Large Fraction ◽

Structural Similarity ◽

Amino Acid Sequences ◽

Divergent Evolution ◽

Histidine Biosynthesis ◽

Common Evolutionary Origin ◽

High Structural Similarity

Abstract The (?[alpha)8-barrel is the most versatile and most frequently encountered fold among enzymes. It is an interesting question how the contemporary (?[alpha)8-barrels are evolutionarily related and by which mechanisms they evolved from more simple precursors. Comprehensive comparisons of amino acid sequences and threedimensional structures suggest that a large fraction of the known (?[alpha)8-barrels have divergently evolved from a common ancestor. The mutational interconversion of enzymatic activities of several (?[alpha)8-barrels further supports their common evolutionary origin. Moreover, the high structural similarity between the N and Cterminal (?[alpha)4 units of two (?[alpha)8-barrel enzymes from histidine biosynthesis indicates that the contemporary proteins evolved by tandem duplication and fusion of the gene of an ancestral halfbarrel precursor. In support of this hypothesis, recombinantly produced halfbarrels were shown to be folded, dimeric proteins.

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KIT mutations, and not FLT3 internal tandem duplication, are strongly associated with a poor prognosis in pediatric acute myeloid leukemia with t(8;21): a study of the Japanese Childhood AML Cooperative Study Group

Yearbook of Oncology ◽

10.1016/s1040-1741(08)70464-0 ◽

2007 ◽

Vol 2007 ◽

pp. 274-275

Author(s):

R.J. Arceci

Keyword(s):

Myeloid Leukemia ◽

Poor Prognosis ◽

Tandem Duplication ◽

Study Group ◽

Cooperative Study ◽

Cooperative Study Group ◽

Internal Tandem Duplication ◽

Pediatric Acute Myeloid Leukemia ◽

Childhood Aml ◽

Flt3 Internal Tandem Duplication

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Analysis of FLT3-ITD and FLT3-Asp835 Mutations in de novo Acute Myeloid Leukemia: Evaluation of Incidence, Distribution Pattern, Correlation with Cytogenetics and Characterization of Internal Tandem Duplication from Indian Population

Cancer Investigation ◽

10.1080/07357900903095649 ◽

2009 ◽

pp. 1-1

Author(s):

Firoz Ahmad ◽

Swarna Mandava ◽

Bibhu Ranjan Das

Keyword(s):

Acute Myeloid Leukemia ◽

Distribution Pattern ◽

Myeloid Leukemia ◽

Indian Population ◽

Tandem Duplication ◽

De Novo ◽

Internal Tandem Duplication ◽

Pattern Correlation ◽

Acute Myeloid

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Pygmies share a recent common ancestor

Nature ◽

10.1038/news.2009.82 ◽

2009 ◽

Author(s):

Roberta Kwok

Keyword(s):

Common Ancestor ◽

Recent Common Ancestor

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TANDEM DUPLICATION RANDOM LOSS EVENTS INFLUENCED TO GENE ORDER CHANGES IN BAIKALIAN AMPHIPODS

MOLECULAR PHYLOGENETICS ◽

10.30826/molphy2018-71 ◽

2018 ◽

Author(s):

E.A. SIROTININA ◽

◽

E.V. ROMANOVA ◽

D. YU. SHERBAKOV ◽

◽

...

Keyword(s):

Gene Order ◽

Tandem Duplication ◽

Random Loss

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Additional Dermal Ossifications in the Anuran Skull: Morphological Novelties or Archaic Elements?

Russian Journal of Herpetology ◽

10.30906/1026-2296-1997-4-1-17-27 ◽

2011 ◽

Vol 4 (1) ◽

pp. 17-27 ◽

Cited By ~ 5

Author(s):

Sergei V. Smirnov

Keyword(s):

Common Ancestor ◽

The State ◽

Cranial Morphology ◽

Anterior Portion ◽

Bombina Orientalis ◽

Common Event ◽

Rostral Portion ◽

Morphological Novelties ◽

Dermal Bones

Examination of the cranial morphology in Bombina orientalis (Anura: Discoglossidae) revealed the occurrence of additional dermal bones lying: a) between the nasals and frontoparietals, b) between frontoparietals, and c) on the tectum synoticum behind the frontoparietals. The presence of similar bones as well as extra ossifications lying in the midline in the rostral portion of skull was shown to be a rather common event among anurans. Based on the occurrence of bones with similar topology in crossopterygians and different stegocephalians, it was concluded that extra ossifications sporadically appearing in anurans are more likely to be ancient cranial elements than neomorphs. Additional dermal bones found in the anterior portion of the anuran skull are homologous to the postrostrals of crossopterygians; extra ossifications lying between the frontoparietals correspond to the bones with similar topology sporadically appearing in crossopterygians and stegocephalians; and extra bones situated behind the frontoparietals are homologous to the lateral extrascapulars (postparietals of stegocephalians) and the median extrascapular of crossopterygians. These extra bones were proposed to be inherited from the presumed common ancestor of all Gnathostomes and retained in anurans in the state of latent capacities. The sporadic appearance of these bones in anurans results from the phenotypical realization of these latent capacities.

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