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Search Results for Menyanthes trifoliata
56 articles found.
1.
Multiomics-based dissection of citrus flavonoid metabolism using a Citrus reticulata × Poncirus trifoliata population.
Mou J, Zhang Z, Qiu H, Lu Y, Zhu X, Fan Z, Zhang Q, Ye J, Fernie AR, Cheng Y, Deng X, Wen W.
Horticulture research. 2021; 8(1): 56
2.
Process-based modeling to assess the nutrient removal efficiency of two endangered hydrophytes: Linking nutrient-cycle with a multiple-quotas approach.
Kim Y, Lee YS, Wee J, Hong J, Lee M, Kim JG, Bae YJ, Cho K.
The Science of the total environment. 2021; 763(): 144223
3.
Antimicrobial, antioxidant and physical properties of chitosan film containing Akebia trifoliata (Thunb.) Koidz. peel extract/montmorillonite and its application.
Jiang Y, Yin H, Zhou X, Wang D, Zhong Y, Xia Q, Deng Y, Zhao Y.
Food chemistry. 2021; 361(): 130111
4.
Corrigendum to "Photo-induced and phytomediated synthesis of silver nanoparticles using Derris trifoliata leaf extract and its larvicidal activity against Aedes aegypti" [Journal of Photochemistry and Photobiology B: Biology, Volume 171, June 2017, Pages 1-8].
Kumar VA, Ammani K, Jobina R, Subhaswaraj P, Siddhardha B.
Journal of photochemistry and photobiology. B, Biology. 2021; 222(): 112262
5.
Mikan Genome Database (MiGD): integrated database of genome annotation, genomic diversity, and CAPS marker information for mandarin molecular breeding.
Kawahara Y, Endo T, Omura M, Teramoto Y, Itoh T, Fujii H, Shimada T.
Breeding science. 2020; 70(2): 200-211
6.
Comparative transcriptome analysis reveals synergistic and disparate defense pathways in the leaves and roots of trifoliate orange (Poncirus trifoliata) autotetraploids with enhanced salt tolerance.
Wei T, Wang Y, Liu JH.
Horticulture research. 2020; 7(1): 88
7.
The complete chloroplast genome of subsp. (Lardizabalaceae), a medicinal plant in China.
Yu A, Tan Q, Chen J, Huang H.
Mitochondrial DNA. Part B, Resources. 2020; 5(3): 3333-3334
8.
The complete chloroplast genome of (Lardizabalaceae), a traditional herb in China.
Hong X, Fang C, Liu Y, Huang S.
Mitochondrial DNA. Part B, Resources. 2020; 5(3): 2330-2331
9.
Chloroplast genome and phylogenetic analyses of (Rutaceae).
He SL, Tian Y, Yang Y, Shi CY.
Mitochondrial DNA. Part B, Resources. 2020; 5(3): 2205-2206
10.
Characterization of Promoter and Three Novel Interacting Proteins Responding to Drought in .
Xiong J, Liu L, Ma X, Li F, Tang C, Li Z, Lü B, Zhou T, Lian X, Chang Y, Tang M, Xie S, Lu X.
International journal of molecular sciences. 2020; 21(13):
11.
Fast-track breeding system to introduce CTV resistance of trifoliate orange into citrus germplasm, by integrating early flowering transgenic plants with marker-assisted selection.
Endo T, Fujii H, Omura M, Shimada T.
BMC plant biology. 2020; 20(1): 224
12.
Integrative transcriptome and proteome analyses provide new insights into different stages of fruit cracking during ripening.
Niu J, Shi Y, Huang K, Zhong Y, Chen J, Sun Z, Luan M, Chen J.
Biotechnology for biofuels. 2020; 13(): 149
13.
Arbuscular Mycorrhizal Fungi Regulate Polyamine Homeostasis in Roots of Trifoliate Orange for Improved Adaptation to Soil Moisture Deficit Stress.
Zou YN, Zhang F, Srivastava AK, Wu QS, Kuča K.
Frontiers in plant science. 2020; 11(): 600792
14.
A chromosome-scale reference genome of trifoliate orange (Poncirus trifoliata) provides insights into disease resistance, cold tolerance and genome evolution in Citrus.
Peng Z, Bredeson JV, Wu GA, Shu S, Rawat N, Du D, Parajuli S, Yu Q, You Q, Rokhsar DS, Gmitter FG, Deng Z.
The Plant journal : for cell and molecular biology. 2020; 104(5): 1215-1232
15.
Wide-ranging transcriptomic analysis of Poncirus trifoliata, Citrus sunki, Citrus sinensis and contrasting hybrids reveals HLB tolerance mechanisms.
Curtolo M, de Souza Pacheco I, Boava LP, Takita MA, Granato LM, Galdeano DM, de Souza AA, Cristofani-Yaly M, Machado MA.
Scientific reports. 2020; 10(1): 20865
16.
Host-plant resistance associated with Poncirus trifoliata influence oviposition, development and adult emergence of Diaphorina citri (Hemiptera: Liviidae).
George J, Lapointe SL.
Pest management science. 2019; 75(1): 279-285
17.
Common mycorrhizal networks activate salicylic acid defense responses of trifoliate orange (Poncirus trifoliata).
Zhang YC, Zou YN, Liu LP, Wu QS.
Journal of integrative plant biology. 2019; 61(10): 1099-1111
18.
Mycorrhizas enhance drought tolerance of citrus by altering root fatty acid compositions and their saturation levels.
Wu QS, He JD, Srivastava AK, Zou YN, Kuča K.
Tree physiology. 2019; 39(7): 1149-1158
19.
Overexpression of PtrbHLH, a basic helix-loop-helix transcription factor from Poncirus trifoliata, confers enhanced cold tolerance in pummelo (Citrus grandis) by modulation of H2O2 level via regulating a CAT gene.
Geng J, Wei T, Wang Y, Huang X, Liu JH.
Tree physiology. 2019; 39(12): 2045-2054
20.
Boron toxicity induced specific changes of cell ultrastructure and architecture of components in leaf center and tip of trifoliate orange [Poncirus trifoliata (L.) Raf.].
Wu X, Lu X, Riaz M, Yan L, Jiang C.
Journal of environmental management. 2019; 246(): 426-433
21.
Enhanced ROS scavenging and sugar accumulation contribute to drought tolerance of naturally occurring autotetraploids in Poncirus trifoliata.
Wei T, Wang Y, Xie Z, Guo D, Chen C, Fan Q, Deng X, Liu JH.
Plant biotechnology journal. 2019; 17(7): 1394-1407
22.
ERF109 of trifoliate orange (Poncirus trifoliata (L.) Raf.) contributes to cold tolerance by directly regulating expression of Prx1 involved in antioxidative process.
Wang M, Dai W, Du J, Ming R, Dahro B, Liu JH.
Plant biotechnology journal. 2019; 17(7): 1316-1332
23.
Identification of the magnesium transport (MGT) family in Poncirus trifoliata and functional characterization of PtrMGT5 in magnesium deficiency stress.
Liu X, Guo LX, Luo LJ, Liu YZ, Peng SA.
Plant molecular biology. 2019; 101(6): 551-560
24.
Comparative transcriptome analysis of Poncirus trifoliata identifies a core set of genes involved in arbuscular mycorrhizal symbiosis.
An J, Sun M, van Velzen R, Ji C, Zheng Z, Limpens E, Bisseling T, Deng X, Xiao S, Pan Z.
Journal of experimental botany. 2018; 69(21): 5255-5264
25.
Molecular Basis of Citrus sunki Susceptibility and Poncirus trifoliata Resistance Upon Phytophthora parasitica Attack.
Dalio RJD, Máximo HJ, Oliveira TS, Azevedo TM, Felizatti HL, Campos MA, Machado MA.
Molecular plant-microbe interactions : MPMI. 2018; 31(3): 386-398
26.
Transcriptome-wide identification and functional prediction of novel and flowering-related circular RNAs from trifoliate orange (Poncirus trifoliata L. Raf.).
Zeng RF, Zhou JJ, Hu CG, Zhang JZ.
Planta. 2018; 247(5): 1191-1202
27.
QTLs and eQTLs mapping related to citrandarins' resistance to citrus gummosis disease.
Lima RPM, Curtolo M, Merfa MV, Cristofani-Yaly M, Machado MA.
BMC genomics. 2018; 19(1): 516
28.
Depletion of abscisic acid levels in roots of flooded Carrizo citrange (Poncirus trifoliata L. Raf. × Citrus sinensis L. Osb.) plants is a stress-specific response associated to the differential expression of PYR/PYL/RCAR receptors.
Arbona V, Zandalinas SI, Manzi M, González-Guzmán M, Rodriguez PL, Gómez-Cadenas A.
Plant molecular biology. 2017; 93(6): 623-640
29.
Genome-wide screening and characterization of long non-coding RNAs involved in flowering development of trifoliate orange (Poncirus trifoliata L. Raf.).
Wang CY, Liu SR, Zhang XY, Ma YJ, Hu CG, Zhang JZ.
Scientific reports. 2017; 7(): 43226
30.
Molecular cloning and characterization of PtrZPT2-1, a ZPT2 family gene encoding a Cys2/His2-type zinc finger protein from trifoliate orange (Poncirus trifoliata (L.) Raf.) that enhances plant tolerance to multiple abiotic stresses.
Liu D, Yang L, Luo M, Wu Q, Liu S, Liu Y.
Plant science : an international journal of experimental plant biology. 2017; 263(): 66-78
31.
Tetraploid Carrizo citrange rootstock (Citrus sinensis Osb.×Poncirus trifoliata L. Raf.) enhances natural chilling stress tolerance of common clementine (Citrus clementina Hort. ex Tan).
Oustric J, Morillon R, Luro F, Herbette S, Lourkisti R, Giannettini J, Berti L, Santini J.
Journal of plant physiology. 2017; 214(): 108-115
32.
Physiologic, Anatomic, and Gene Expression Changes in Citrus sunki, Poncirus trifoliata, and Their Hybrids After 'Candidatus Liberibacter asiaticus' Infection.
Boava LP, Cristofani-Yaly M, Machado MA.
Phytopathology. 2017; 107(5): 590-599
33.
Characterization and Expression Analysis of PtAGL24, a SHORT VEGETATIVE PHASE/AGAMOUS-LIKE 24 (SVP/AGL24)-Type MADS-Box Gene from Trifoliate Orange (Poncirus trifoliata L. Raf.).
Sun LM, Zhang JZ, Hu CG.
Frontiers in plant science. 2016; 7(): 823
34.
Tetraploidy Enhances Boron-Excess Tolerance in Carrizo Citrange (Citrus sinensis L. Osb. × Poncirus trifoliata L. Raf.).
Ruiz M, Quiñones A, Martínez-Alcántara B, Aleza P, Morillon R, Navarro L, Primo-Millo E, Martínez-Cuenca MR.
Frontiers in plant science. 2016; 7(): 701
35.
The miR396b of Poncirus trifoliata Functions in Cold Tolerance by Regulating ACC Oxidase Gene Expression and Modulating Ethylene-Polyamine Homeostasis.
Zhang X, Wang W, Wang M, Zhang HY, Liu JH.
Plant & cell physiology. 2016; 57(9): 1865-78
36.
Biolistic transformation of Carrizo citrange (Citrus sinensis Osb. × Poncirus trifoliata L. Raf.).
Wu H, Acanda Y, Jia H, Wang N, Zale J.
Plant cell reports. 2016; 35(9): 1955-62
37.
PtrA/NINV, an alkaline/neutral invertase gene of Poncirus trifoliata, confers enhanced tolerance to multiple abiotic stresses by modulating ROS levels and maintaining photosynthetic efficiency.
Dahro B, Wang F, Peng T, Liu JH.
BMC plant biology. 2016; 16(): 76
38.
Characteristic Volatile Components of Trifoliate Orange Peel (Poncirus trifoliata).
Tomiyama K, Kazutoshi S, Yaguchi Y, Kawakami Y, Asakawa Y.
Natural product communications. 2016; 11(8): 1165-1166
39.
ICE1 of Poncirus trifoliata functions in cold tolerance by modulating polyamine levels through interacting with arginine decarboxylase.
Huang XS, Zhang Q, Zhu D, Fu X, Wang M, Zhang Q, Moriguchi T, Liu JH.
Journal of experimental botany. 2015; 66(11): 3259-74
40.
A stress responsive gene of Fortunella crassifolia FcSISP functions in salt stress resistance.
Gong X, Zhang J, Liu JH.
Plant physiology and biochemistry : PPB. 2014; 83(): 10-9
41.
Overexpression of a stress-responsive MYB transcription factor of Poncirus trifoliata confers enhanced dehydration tolerance and increases polyamine biosynthesis.
Sun P, Zhu X, Huang X, Liu JH.
Plant physiology and biochemistry : PPB. 2014; 78(): 71-9
42.
PtrBAM1, a β-amylase-coding gene of Poncirus trifoliata, is a CBF regulon member with function in cold tolerance by modulating soluble sugar levels.
Peng T, Zhu X, Duan N, Liu JH.
Plant, cell & environment. 2014; 37(12): 2754-67
43.
Community analysis of arbuscular mycorrhizal fungi in roots of Poncirus trifoliata and Citrus reticulata based on SSU rDNA.
Wang P, Wang Y.
TheScientificWorldJournal. 2014; 2014(): 562797
44.
Mycorrhizal-mediated lower proline accumulation in Poncirus trifoliata under water deficit derives from the integration of inhibition of proline synthesis with increase of proline degradation.
Zou YN, Wu QS, Huang YM, Ni QD, He XH.
PloS one. 2013; 8(11): e80568
45.
Identification and expression analysis of early cold-induced genes from cold-hardy Citrus relative Poncirus trifoliata (L.) Raf.
Sahin-Çevik M.
Gene. 2013; 512(2): 536-45
46.
Metabolic responses to iron deficiency in roots of Carrizo citrange [Citrus sinensis (L.) Osbeck. x Poncirus trifoliata (L.) Raf].
Martínez-Cuenca MR, Iglesias DJ, Talón M, Abadía J, López-Millán AF, Primo-Millo E, Legaz F.
Tree physiology. 2013; 33(3): 320-9
47.
Evaluation of codon biology in citrus and Poncirus trifoliata based on genomic features and frame corrected expressed sequence tags.
Ahmad T, Sablok G, Tatarinova TV, Xu Q, Deng XX, Guo WW.
DNA research : an international journal for rapid publication of reports on genes and genomes. 2013; 20(2): 135-50
48.
A basic helix-loop-helix transcription factor, PtrbHLH, of Poncirus trifoliata confers cold tolerance and modulates peroxidase-mediated scavenging of hydrogen peroxide.
Huang XS, Wang W, Zhang Q, Liu JH.
Plant physiology. 2013; 162(2): 1178-94
49.
A global view of gene activity at the flowering transition phase in precocious trifoliate orange and its wild-type [Poncirus trifoliata (L.) Raf.] by transcriptome and proteome analysis.
Ai XY, Lin G, Sun LM, Hu CG, Guo WW, Deng XX, Zhang JZ.
Gene. 2012; 510(1): 47-58
50.
Ptcorp gene induced by cold stress was identified by proteomic analysis in leaves of Poncirus trifoliata (L.) Raf.
Long G, Song J, Deng Z, Liu J, Rao L.
Molecular biology reports. 2012; 39(5): 5859-66
51.
Cloning and molecular characterization of a mitogen-activated protein kinase gene from Poncirus trifoliata whose ectopic expression confers dehydration/drought tolerance in transgenic tobacco.
Huang XS, Luo T, Fu XZ, Fan QJ, Liu JH.
Journal of experimental botany. 2011; 62(14): 5191-206
52.
PtSVP, an SVP homolog from trifoliate orange (Poncirus trifoliata L. Raf.), shows seasonal periodicity of meristem determination and affects flower development in transgenic Arabidopsis and tobacco plants.
Li ZM, Zhang JZ, Mei L, Deng XX, Hu CG, Yao JL.
Plant molecular biology. 2010; 74(1-2): 129-42
53.
Overexpression of PtrABF gene, a bZIP transcription factor isolated from Poncirus trifoliata, enhances dehydration and drought tolerance in tobacco via scavenging ROS and modulating expression of stress-responsive genes.
Huang XS, Liu JH, Chen XJ.
BMC plant biology. 2010; 10(): 230
54.
Antimicrobial activity of the Derris elliptica, Derris indica and Derris trifoliata extractives.
Khan MR, Omoloso AD, Barewai Y.
Fitoterapia. 2006; 77(4): 327-30
55.
Taxonomical markers in two endemic plants of Sardinia: Verbascum conocarpum and Scrophularia trifoliata.
Ramunno A, Serrilli AM, Piccioni F, Serafini M, Ballero M.
Natural product research. 2006; 20(5): 511-6
56.
Triterpenes and triterpene saponins from the stems of Akebia trifoliata.
Mimaki Y, Kuroda M, Yokosuka A, Harada H, Fukushima M, Sashida Y.
Chemical & pharmaceutical bulletin. 2003; 51(8): 960-5

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