Genome-Wide Identification and Transferability of Microsatellite Markers between Palmae Species

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Abstract

The Palmae family contains 202 genera and approximately 2800 species. Except for Elaeis guineensis and Phoenix dactylifera, almost no genetic and genomic information is available for Palmae species. Therefore, this is an obstacle to the conservation and genetic assessment of Palmae species, especially those that are currently endangered. The study was performed to develop a large number of microsatellite markers which can be used for genetic analysis in different Palmae species. Based on the assembled genome of E. guineensis and P. dactylifera, a total of 814 383 and 371 629 microsatellites were identified. Among these microsatellites identified in E. guineensis, 734 509 primer pairs could be designed from the flanking sequences of these microsatellites. The majority (618 762) of these designed primer pairs had in silico products in the genome of E. guineensis. These 618 762 primer pairs were subsequently used to in silico amplify the genome of P. dactylifera. A total of 7 265 conserved microsatellites were identified between E. guineensis and P. dactylifera. One hundred and thirty-five primer pairs flanking the conserved SSRs were stochastically selected and validated to have high cross-genera transferability, varying from 16.7 to 93.3% with an average of 73.7%. These genome-wide conserved microsatellite markers will provide a useful tool for genetic assessment and conservation of different Palmae species in the future.

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Microsatellites are preferentially associated with nonrepetitive DNA in plant genomes.

Michele Morgante, Michael Hanafey, Wayne Powell (2002)

Microsatellites are a ubiquitous class of simple repetitive DNA sequence. An excess of such repetitive tracts has been described in all eukaryotes analyzed and is thought to result from the mutational effects of replication slippage. Large-scale genomic and EST sequencing provides the opportunity to evaluate the abundance and relative distribution of microsatellites between transcribed and nontranscribed regions and the relationship of these features to haploid genome size. Although this has been studied in microbial and animal genomes, information in plants is limited. We assessed microsatellite frequency in plant species with a 50-fold range in genome size that is mostly attributable to the recent amplification of repetitive DNA. Among species, the overall frequency of microsatellites was inversely related to genome size and to the proportion of repetitive DNA but remained constant in the transcribed portion of the genome. This indicates that most microsatellites reside in regions pre-dating the recent genome expansion in many plants. The microsatellite frequency was higher in transcribed regions, especially in the untranslated portions, than in genomic DNA. Contrary to previous reports suggesting a preferential mechanism for the origin of microsatellites from repetitive DNA in both animals and plants, our findings show a significant association with the low-copy fraction of plant genomes.

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Microsatellites: genomic distribution, putative functions and mutational mechanisms: a review.

You-Chun Li, Abraham Korol, Tzion Fahima … (2002)

Microsatellites, or tandem simple sequence repeats (SSR), are abundant across genomes and show high levels of polymorphism. SSR genetic and evolutionary mechanisms remain controversial. Here we attempt to summarize the available data related to SSR distribution in coding and noncoding regions of genomes and SSR functional importance. Numerous lines of evidence demonstrate that SSR genomic distribution is nonrandom. Random expansions or contractions appear to be selected against for at least part of SSR loci, presumably because of their effect on chromatin organization, regulation of gene activity, recombination, DNA replication, cell cycle, mismatch repair system, etc. This review also discusses the role of two putative mutational mechanisms, replication slippage and recombination, and their interaction in SSR variation.

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Oil palm genome sequence reveals divergence of interfertile species in old and new worlds

Rajinder Singh, Meilina Ong-Abdullah, Eng-Ti Leslie Low … (2013)

Oil palm is the most productive oil-bearing crop. Planted on only 5% of the total vegetable oil acreage, palm oil accounts for 33% of vegetable oil, and 45% of edible oil worldwide, but increased cultivation competes with dwindling rainforest reserves. We report the 1.8 gigabase (Gb) genome sequence of the African oil palm Elaeis guineensis, the predominant source of worldwide oil production. 1.535 Gb of assembled sequence and transcriptome data from 30 tissue types were used to predict at least 34,802 genes, including oil biosynthesis genes and homologues of WRINKLED1 (WRI1), and other transcriptional regulators 1 , which are highly expressed in the kernel. We also report the draft sequence of the S. American oil palm Elaeis oleifera, which has the same number of chromosomes (2n=32) and produces fertile interspecific hybrids with E. guineensis 2 , but appears to have diverged in the new world. Segmental duplications of chromosome arms define the palaeotetraploid origin of palm trees. The oil palm sequence enables the discovery of genes for important traits as well as somaclonal epigenetic alterations which restrict the use of clones in commercial plantings 3 , and thus helps achieve sustainability for biofuels and edible oils, reducing the rainforest footprint of this tropical plantation crop.

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Author and article information

Contributors

Yong Xiao: URI : http://loop.frontiersin.org/people/367028/overview

Annaliese S. Mason: URI : http://loop.frontiersin.org/people/281586/overview

Peng Shi: URI : http://loop.frontiersin.org/people/384899/overview

Journal

Journal ID (nlm-ta): Front Plant Sci

Journal ID (iso-abbrev): Front Plant Sci

Journal ID (publisher-id): Front. Plant Sci.

Title: Frontiers in Plant Science

Publisher: Frontiers Media S.A.

ISSN (Electronic): 1664-462X

Publication date (Electronic): 25 October 2016

Publication date Collection: 2016

Volume: 7

Electronic Location Identifier: 1578

Affiliations

[1] ¹Hainan Key Laboratory of Tropical Oil Crops Biology/Coconut Research Institute, Chinese Academy of Tropical Agricultural Sciences Wenchang, China

[2] ²College of Agriculture, Hainan University Haikou, China

[3] ³Department of Plant Breeding, IFZ Research Centre for Biosystems, Land Use and Nutrition, Justus Liebig University Giessen Giessen, Germany

[4] ⁴Institute of Tropical Bioscience and Biotechnology, Chinese Academy of Tropical Agricultural Science Haikou, China

Author notes

Edited by: Maoteng Li, Huazhong University of Science and Technology, China

Reviewed by: Changying Zeng, Institute of Tropical Biosciences and Biotechnology, China; Jiaqin Shi, Chinese Academy of Agricultural Sciences, China

*Correspondence: Yong Xiao xiaoyong1980@ 123456catas.cn

Xintao Lei xtlei@ 123456126.com

This article was submitted to Crop Science and Horticulture, a section of the journal Frontiers in Plant Science

†These authors have contributed equally to this work.

Article

DOI: 10.3389/fpls.2016.01578

PMC ID: 5078683

SO-VID: ef3e1e5d-f677-4adf-ae9d-7bc7965b8719

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This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 04 August 2016

Date accepted : 06 October 2016

Page count

Figures: 3, Tables: 2, Equations: 0, References: 39, Pages: 10, Words: 7084

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Genome-Wide Identification and Transferability of Microsatellite Markers between Palmae Species

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Abstract

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Plant MYBs

Most cited references 30

Microsatellites are preferentially associated with nonrepetitive DNA in plant genomes.

Microsatellites: genomic distribution, putative functions and mutational mechanisms: a review.

Oil palm genome sequence reveals divergence of interfertile species in old and new worlds

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