Research Article

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10/17/2016
Genetic diversity; Sampling strategy; Spatial autocorrelation analysis; Toona ciliata

The genetic diversity and spatial autocorrelation of Toona ciliata populations were analyzed with eight microsatellite markers to determine an appropriate sampling strategy for the effective conservation of natural T. ciliata populations. The average number of alleles and effective number of alleles were 6.1 and 2.7, ... more

J. Liu; J.M. Jiang; J. Liu; J.M. Jiang
10/17/2016
Genetic diversity; Pistacia vera; SRAP markers; Structure analysis

Sequence-related amplified polymorphism (SRAP) markers preferentially amplify open reading frames and were used to study the genetic diversity of Tunisian pistachio. In the present study, 43 Pistacia vera accessions were screened using seven SRAP primer pairs. A total of 78 markers was revealed (95.12%) with an average ... more

K. Guenni; M. Aouadi; K. Chatti; A. Salhi-Hannachi; K. Guenni; M. Aouadi; K. Chatti; A. Salhi-Hannachi
10/17/2016
Acrocomia aculeata; Biofuel; Genetic diversity; Genetic parameters; Heritability; Plant genetic resource

Macaw palm (Acrocomia aculeata) is a promising species for use in biofuel production, and establishing breeding programs is important for the development of commercial plantations. The aim of the present study was to analyze genetic diversity, verify correlations between traits, estimate genetic parameters, and select different accessions of A. ... more

S.M. Coser; S.Y. Motoike; T.R. Corrêa; T.P. Pires; M.D.V. Resende
10/24/2016
Genetic diversity; Geographic populations; Microsatellite; Thais luteostoma

In this study, the genetic diversity in four geographic populations (Yushan Island, Zhoushan, Wenzhou, and Xiamen) of Thais luteostoma was analyzed using 21 microsatellite loci. The results of this study showed that the alleles obtained from different populations ranged from 2 to 8. The average number of alleles and effective alleles were 4.59 and 3.16, ... more

W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao; W. Li; H.F. Jiao; Z.H. Lin; Y.B. Bao
10/24/2016
Genetic diversity; Gymnospermium microrrhynchum; Plant conservation; RAPD

Gymnospermium microrrhynchum (Berberidaceae) is an ephemeral perennial herb with a limited distributional range in the Baekdudaegan mountain areas of the Korean Peninsula, and is designated a rare plant by the Korean Forest Service. Information about its genetic variation and structure is important for developing successful ... more

S.H. Lee; M.H. Yeon; J.K. Shim; S.H. Lee; M.H. Yeon; J.K. Shim
10/24/2016
Development; EST-SSR markers; Genetic diversity; Jerusalem artichoke

Jerusalem artichoke (Helianthus tuberosus L.) is a perennial tuberous plant and a traditional inulin-rich crop in Thailand. It has become the most important source of inulin and has great potential for use in chemical and food industries. In this study, expressed sequence tag (EST)-based simple sequence repeat (SSR) markers were developed from 40,362 ... more

T. Mornkham; P.P. Wangsomnuk; X.C. Mo; F.O. Francisco; L.Z. Gao; H. Kurzweil; T. Mornkham; P.P. Wangsomnuk; X.C. Mo; F.O. Francisco; L.Z. Gao; H. Kurzweil; T. Mornkham; P.P. Wangsomnuk; X.C. Mo; F.O. Francisco; L.Z. Gao; H. Kurzweil; T. Mornkham; P.P. Wangsomnuk; X.C. Mo; F.O. Francisco; L.Z. Gao; H. Kurzweil
11/21/2016
Genetic diversity; kdr; Mechanism of resistance; Mosquito

Recently, the number of Aedes aegypti foci has increased in west of Santa Catarina, south Brazil, which has increased concern regarding mosquito-borne disease outbreaks such as dengue fever, Zika virus, and chikungunya. Therefore, it is important to monitor genetic resistance to insecticides through “knockdown resistance”. Homozygosity (Ile/Ile) at ... more

M.L. Collet; C. Frizzo; E. Orlandin; L.D.P. Rona; J.C. Nascimento; M.A.E. Montano; G.A. Müller; G. Wagner; M.L. Collet; C. Frizzo; E. Orlandin; L.D.P. Rona; J.C. Nascimento; M.A.E. Montano; G.A. Müller; G. Wagner
11/21/2016
COI; Genetic diversity; MpnDV; Myzus persicae nicotianae

We previously described a novel densovirus [Myzus persicae nicotianae densovirus (MpnDV)] infecting M. persicae nicotianae (Hemiptera: Aphididae) with 34% prevalence. This single-stranded DNA virus has a 5480-nucleotide ambisense genome and belongs to the Densovirinae subfamily within the family Parvoviridae. In the present study ... more

X.R. Song; S.H. Tang; Z.Q. Tang; X.M. Yang; X.W. Wang; X.F. Wang; P.J. Xu; G.W. Ren; X.R. Song; S.H. Tang; Z.Q. Tang; X.M. Yang; X.W. Wang; X.F. Wang; P.J. Xu; G.W. Ren
12/15/2017
Genetic diversity; genetic relationships; Microsatellite; Olea europaea; South-Eastern Tunisia
Tunisia is one of the most important olive growing
countries in the Mediterranean basin and it is classified in fourth rank on
world scale in terms of olive oil production. Since the emergence of the
modern oliviculture, the identification, the evaluation and conservation
of the local genetic resources have been considered as a priority in
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M. Ben Mohamed; S. Zelasco; S. Ben Ali; F. Guasmi; T. Triki; F.L. Conforti; K. Naziha
01/02/2018
Genetic diversity; ISSR; Limnonectes gyldenstolpei; Limnonectes taylori; Parapatric

Biodiversity stems from speciation, and species identification allows scientists to measure species biodiversity. However, some closely related species, particularly amphibians that choose to inhabit the same environment, are difficult to identify. Juvenile specimens of Limnonectes gyldenstolpei (Lg) and L. taylori (Lt) were used as models to study the speciation ... more

P. Teerawarunyoo; C. Suwannapoom; P. Sucharitakul; K. Buddhachat; W. Pradit; K. Nganvongpanit; S. Chomdej

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