A comparative study of complete chloroplast genome for the genus salvia

[1]  Dongwei Zhang,et al.  Salvia miltiorrhiza in diabetes: A review of its pharmacology, phytochemistry, and safety. , 2019, Phytomedicine : international journal of phytotherapy and phytopharmacology.

[2]  Tae-Jin Yang,et al.  Dynamic Chloroplast Genome Rearrangement and DNA Barcoding for Three Apiaceae Species Known as the Medicinal Herb “Bang-Poong” , 2019, International journal of molecular sciences.

[3]  Wei Gao,et al.  Tanshinones, Critical Pharmacological Components in Salvia miltiorrhiza , 2019, Front. Pharmacol..

[4]  Minhui Li,et al.  Biosynthesis, Chemistry, and Pharmacology of Polyphenols from Chinese Salvia Species: A Review , 2019, Molecules.

[5]  T. Tuller,et al.  Solving the riddle of the evolution of Shine-Dalgarno based translation in chloroplasts , 2018, bioRxiv.

[6]  B. Drew,et al.  Phylogeny and staminal evolution of Salvia (Lamiaceae, Nepetoideae) in East Asia , 2018, Annals of botany.

[7]  R. Bock,et al.  Chloroplast Translation: Structural and Functional Organization, Operational Control, and Regulation[OPEN] , 2018, Plant Cell.

[8]  J. Dang,et al.  Efficient Separation of Four Antibacterial Diterpenes from the Roots of Salvia Prattii Using Non-Aqueous Hydrophilic Solid-Phase Extraction Followed by Preparative High-Performance Liquid Chromatography , 2018, Molecules.

[9]  Kun Jiang,et al.  Identification of Salvia species using high-performance liquid chromatography combined with chemical pattern recognition analysis. , 2018, Journal of separation science.

[10]  Kazutaka Katoh,et al.  MAFFT online service: multiple sequence alignment, interactive sequence choice and visualization , 2017, Briefings Bioinform..

[11]  Chunsheng Liu,et al.  The Chloroplast Genome Sequence of Scutellaria baicalensis Provides Insight into Intraspecific and Interspecific Chloroplast Genome Diversity in Scutellaria , 2017, Genes.

[12]  Axel Fischer,et al.  GeSeq – versatile and accurate annotation of organelle genomes , 2017, Nucleic Acids Res..

[13]  Shu‐Ming Li,et al.  New phenolic acids from Salvia yunnanensis C.H.Wright , 2017, Natural product research.

[14]  Weiqing Kong,et al.  The complete chloroplast genome sequence of Premna microphylla Turcz , 2016, Mitochondrial DNA. Part A, DNA mapping, sequencing, and analysis.

[15]  Chi Song,et al.  The complete chloroplast genome sequence of Perilla frutescens (L.) , 2016, Mitochondrial DNA. Part A, DNA mapping, sequencing, and analysis.

[16]  Yanduo Tao,et al.  Two-dimensional hydrophilic interaction chromatography × reversed-phase liquid chromatography for the preparative isolation of potential anti-hepatitis phenylpropanoids from Salvia prattii. , 2016, Journal of separation science.

[17]  H. Daniell,et al.  Chloroplast genomes: diversity, evolution, and applications in genetic engineering , 2016, Genome Biology.

[18]  S. Schuster,et al.  Data characterizing the chloroplast genomes of extinct and endangered Hawaiian endemic mints (Lamiaceae) and their close relatives , 2016, Data in brief.

[19]  X. Tao,et al.  De novo transcriptome assembly of Ipomoea nil using Illumina sequencing for gene discovery and SSR marker identification , 2015, Molecular Genetics and Genomics.

[20]  K. Rahman,et al.  Salvia miltiorrhiza: Traditional medicinal uses, chemistry, and pharmacology. , 2015, Chinese journal of natural medicines.

[21]  Jiayan Wu,et al.  The complete chloroplast genome provides insight into the evolution and polymorphism of Panax ginseng , 2015, Front. Plant Sci..

[22]  Sihua Gao,et al.  Salvia miltiorrhiza: an ancient Chinese herbal medicine as a source for anti-osteoporotic drugs. , 2014, Journal of ethnopharmacology.

[23]  Shuifang Zhu,et al.  Skewer: a fast and accurate adapter trimmer for next-generation sequencing paired-end reads , 2014, BMC Bioinformatics.

[24]  Koichiro Tamura,et al.  MEGA6: Molecular Evolutionary Genetics Analysis version 6.0. , 2013, Molecular biology and evolution.

[25]  Shilin Chen,et al.  The Complete Chloroplast Genome Sequence of the Medicinal Plant Salvia miltiorrhiza , 2013, PloS one.

[26]  David W. Cheung,et al.  SOAPdenovo2: an empirically improved memory-efficient short-read de novo assembler , 2012, GigaScience.

[27]  Shane S. Sturrock,et al.  Geneious Basic: An integrated and extendable desktop software platform for the organization and analysis of sequence data , 2012, Bioinform..

[28]  Mukesh Jain,et al.  NGS QC Toolkit: A Toolkit for Quality Control of Next Generation Sequencing Data , 2012, PloS one.

[29]  Jian-rui Li,et al.  Three new derivatives of anti-HIV-1 polyphenols isolated from Salvia yunnanensis , 2008, Journal of Asian natural products research.

[30]  Ralph Bock,et al.  OrganellarGenomeDRAW (OGDRAW): a tool for the easy generation of high-quality custom graphical maps of plastid and mitochondrial genomes , 2007, Current Genetics.

[31]  K. Sytsma,et al.  Staminal evolution in the genus Salvia (Lamiaceae): molecular phylogenetic evidence for multiple origins of the staminal lever. , 2007, Annals of botany.

[32]  Lior Pachter,et al.  VISTA: computational tools for comparative genomics , 2004, Nucleic Acids Res..

[33]  Yan-ping Shi,et al.  Lupane triterpenoids from Salvia roborowskii Maxim. , 2003, Die Pharmazie.

[34]  J. Stoye,et al.  REPuter: the manifold applications of repeat analysis on a genomic scale. , 2001, Nucleic acids research.

[35]  John P. Huelsenbeck,et al.  MRBAYES: Bayesian inference of phylogenetic trees , 2001, Bioinform..

[36]  S. Li,et al.  Triterpenoids and other compounds from Salvia roborowskii Maxim. , 2001, Die Pharmazie.

[37]  E. Myers,et al.  Basic local alignment search tool. , 1990, Journal of molecular biology.

[38]  R. Musah,et al.  Rapid Species-level Identification of Salvias by Chemometric Processing of Ambient Ionisation Mass Spectrometry-derived Chemical Profiles. , 2017, Phytochemical analysis : PCA.

[39]  G. Benson,et al.  Tandem repeats finder: a program to analyze DNA sequences. , 1999, Nucleic acids research.