Jian Ping Luo scite author profile

BackgroundTea is one of the most popular beverages in the world. Many species in the Thea section of the Camellia genus can be processed for drinking and have been domesticated. However, few investigations have focused on the genetic consequence of domestication and geographic origin of landraces on tea plants using credible wild and planted populations of a single species. Here, C. taliensis provides us with a unique opportunity to explore these issues.ResultsFourteen nuclear microsatellite loci were employed to determine the genetic diversity and domestication origin of C. taliensis, which were represented by 587 individuals from 25 wild, planted and recently domesticated populations. C. taliensis showed a moderate high level of overall genetic diversity. The greater reduction of genetic diversity and stronger genetic drift were detected in the wild group than in the recently domesticated group, indicating the loss of genetic diversity of wild populations due to overexploitation and habitat fragmentation. Instead of the endangered wild trees, recently domesticated individuals were used to compare with the planted trees for detecting the genetic consequence of domestication. A little and non-significant reduction in genetic diversity was found during domestication. The long life cycle, selection for leaf traits and gene flow between populations will delay the emergence of bottleneck in planted trees. Both phylogenetic and assignment analyses suggested that planted trees may have been domesticated from the adjacent central forest of western Yunnan and dispersed artificially to distant places.ConclusionsThis study contributes to the knowledge about levels and distribution of genetic diversity of C. taliensis and provides new insights into genetic consequence of domestication and geographic origin of planted trees of this species. As an endemic tea source plant, wild, planted and recently domesticated C. taliensis trees should all be protected for their unique genetic characteristics, which are valuable for tea breeding.

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Nuclear simple sequence repeat markers are superior to DNA barcodes for identification of closely related Rhododendron species on the same mountain

Luo

Mao

et al. 2018

J of Sytematics Evolution

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Accurate species delimitation of sampled biological material is critical for a range of studies. Although the DNA barcodes developed in recent years are useful for identifying numerous well differentiated species that have not experienced frequent gene flow, they fail to delimit recently diverged species, especially those with extensive introgressions. Here we use five Rhododendron species growing together on the same mountain as a model system to compare the species delimitation effectiveness of the DNA barcodes (internal transcribed spacer, matK, psbA‐trnH, and rbcL) previously proposed versus 15 pairs of microsatellite markers. Using these markers, we genotyped 129 individuals, which were members of five species according to morphological identification. We identified five simple sequence repeat genetic clusters (independently evolving lineages) corresponding to the morphological identification. However, we found that numerous individuals contained cryptic hybrid introgressions from the other species. The four DNA barcodes could not delimit three out of four closely related species that showed clear morphological differentiation and cryptic introgressions. Even after excluding all cryptic hybrids, two closely related species could not be successfully identified. The low discrimination ability of the DNA barcodes for closely related Rhododendron species could result from two, not mutually exclusive factors: introgressive hybridization and incomplete lineage sorting. Our results highlight the importance of simple sequence repeat markers in delimiting closely related species and identifying cryptic introgressions in the absence of morphological changes.

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Structure elucidation of a pectin fromDendrobium nobileLindl. and its immunological activity

Wang

Zhang

Luo

2018

Biotechnology & Biotechnological Equipment

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In this study, an RG-I pectin DNP-W6 was isolated from the stems of Dendrobium nobile Lindl. (Orchidaceae). It contained mannose, glucose, galactose, galacturonic acid and rhamnose in a molar ratio of 0.6: 1.0: 1.5: 1.1: 1.0. Its structural features were revealed by chemical, physical and spectral analysis. The results suggested that DNP-W6 possessed a backbone of a disaccharide of !4)-a-GalAp-(1!2)-a-Rhap-(1!, with approximate 50% substitution at O-4 of the rhamnopyranosyl residues. The side chains were neutral chains including galactosyl, mannosyl and glucosyl chains. The acetyl content was estimated to be 8.9%. The immunological results indicated that DNP-W6 and its derivatives exhibited different immunological activities in vitro, showing that the side chains and acetyl groups had an important effect on the expression of immunological activities.

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Jian Ping Luo

Genetic diversity and domestication origin of tea plant Camellia taliensis(Theaceae) as revealed by microsatellite markers

Nuclear simple sequence repeat markers are superior to DNA barcodes for identification of closely related Rhododendron species on the same mountain

Structure elucidation of a pectin fromDendrobium nobileLindl. and its immunological activity

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