Medicinal Plants: Marchantia polymorpha, Liverwort, ゼニゴケ, Brunnenlebermoos, Hépatique des fontaines, Լերդամամուռ սովորական

Marchantia polymorpha L.
Family: Marchantiaceae

Common name: Liverwort
Arabic: كبدية مائية
Czech: Porostnice mnohotvárná
German: Brunnenlebermoos
French: Hépatique des fontaines
Armenian: Լերդամամուռ սովորական
Japanese: ゼニゴケ
Polish: Porostnica wielokształtna
Russian: Маршанция изменчивая
Romanian: Fierea pământului
Finnish: Keuhkosammal
Islandic: Stjörnumosi
Vietnamese: Địa tiền
Swedish: Lungmossa
Chinese: 全缘地钱

Description: Common liverwort has a flat, branching form. The thallus is generally 0.8 to 4 inches (2-10 cm) long and 0.3 to 0.8 inch (7-20 mm) broad. Thalli are dichotomously branched and exhibit apical growth. Numerous rhizoids attach the gametophyte (thallus) to the soil. Smooth rhizoids penetrate the soil, while tuberculate rhizoids run horizontally along the surface of the plant. Common liverwort is dioecious.

Marchantia polymorpha was used in the treatment of pulmonary tuberculosis, liver-related ailments and also boil. [Therapeutic Use of Medicinal Plants and Their Extracts _ Pharmacognosy]

Marchantia polymorpha, has, as the name indicates, enjoyed an age-old reputation, propagated in herbals, as a remedy for liver complaints. plants were valued instead as a cure for colds and consumption, for ‘a binding at the heart’ and as a diuretic for dropsy. Plant served at one time as a remedy for asthma. [Medicinal Plants in Folk Tradition - An Ethnobotany of Britain & Ireland]

399 Published articles of Marchantia polymorpha

1. Yoshikawa, M., et al., Wounding stress induces phenylalanine ammonia lyases, leading to the accumulation of phenylpropanoids in the model liverwort Marchantia polymorpha. Phytochemistry, 2018. 155: p. 30-36.

2. Tsuboyama, S., et al., Improved G-AgarTrap: A highly efficient transformation method for intact gemmalings of the liverwort Marchantia polymorpha. Scientific Reports, 2018. 8.

3. Togawa, T., et al., Cryopreservation of Marchantia polymorpha spermatozoa. Journal of plant research, 2018.

4. Sugano, S.S. and R. Nishihama, CRISPR/Cas9-Based Genome Editing of Transcription Factor Genes in Marchantia polymorpha. Methods in molecular biology (Clifton, N.J.), 2018. 1830: p. 109-126.

5. Soriano, G., et al., Evolutionary conservation of structure and function of the UVR8 photoreceptor from the liverwort Marchantia polymorpha and the moss Physcomitrella patens. New Phytologist, 2018. 217(1): p. 151-162.

6. Schmid, M.W., et al., Extensive epigenetic reprogramming during the life cycle of Marchantia polymorpha. Genome Biology, 2018. 19.

7. Otani, K., et al., An evolutionarily conserved NIMA-related kinase directs rhizoid tip growth in the basal land plant Marchantia polymorpha. Development, 2018. 145(5).

8. Nelson, J.M., et al., A novel experimental system using the liverwort Marchantia polymorpha and its fungal endophytes reveals diverse and context-dependent effects. New Phytologist, 2018. 218(3): p. 1217-1232.

9. Minamino, N., et al., RAB GTPases in the Basal Land Plant Marchantia polymorpha. Plant and Cell Physiology, 2018. 59(4): p. 850-861.

10. Mano, S., et al., Novel gateway binary vectors for rapid tripartite DNA assembly and promoter analysis with various reporters and tags in the liverwort Marchantia polymorpha. Plos One, 2018. 13(10).

11. Lin, S.-S. and J.L. Bowman, MicroRNAs in Marchantia polymorpha. New Phytologist, 2018. 220(2): p. 409-416.

12. Kubo, H., et al., Biosynthesis of riccionidins and marchantins is regulated by R2R3-MYB transcription factors in Marchantia polymorpha. Journal of Plant Research, 2018. 131(5): p. 849-864.

13. Kijak, H., W. Lodyga, and I.J. Odrzykoski, Sequence diversity of two chloroplast genes: rps4 and tRNA(Gly) (UCC), in the liverwort Marchantia polymorpha, an emerging plant model system. Acta Societatis Botanicorum Poloniae, 2018. 87(1).

14. Ikeda, Y., et al., Loss of CG methylation in Marchantia polymorpha causes disorganization of cell division and reveals unique DNA methylation regulatory mechanisms of non-CG methylation. Plant & cell physiology, 2018.

15. Guo, H., et al., MpAMT1;2 from Marchantia polymorpha is a High-Affinity, Plasma Membrane Ammonium Transporter. Plant and Cell Physiology, 2018. 59(5): p. 997-1005.

16. Furuya, T., et al., ANGUSTIFOLIA contributes to the regulation of three-dimensional morphogenesis in the liverwort Marchantia polymorpha. Development, 2018. 145(18).

17. Flores-Sandoval, E., F. Romani, and J.L. Bowman, Co-expression and Transcriptome Analysis of Marchantia polymorpha Transcription Factors Supports Class C ARFs as Independent Actors of an Ancient Auxin Regulatory Module. Frontiers in Plant Science, 2018. 9.

18. Flores-Sandoval, E., et al., Class C ARFs evolved before the origin of land plants and antagonize differentiation and developmental transitions in Marchantia polymorpha. New Phytologist, 2018. 218(4): p. 1612-1630.

19. Clayton, W.A., et al., UVR8-mediated induction of flavonoid biosynthesis for UVB tolerance is conserved between the liverwort Marchantia polymorpha and flowering plants. The Plant journal : for cell and molecular biology, 2018. 96(3): p. 503-517.

20. Chu, J. and Z. Chen, Molecular identification of histone acetyltransferases and deacetylases in lower plant Marchantia polymorpha. Plant physiology and biochemistry : PPB, 2018. 132: p. 612-622.

21. Campanella, J.J., et al., Evidence for Exaptation of the Marchantia polymorpha M20D Peptidase MpILR1 into the Tracheophyte Auxin Regulatory Pathway. Plant Physiology, 2018. 177(4): p. 1595-1604.

22. Ares, A., et al., Differential Metal Tolerance and Accumulation Patterns of Cd, Cu, Pb and Zn in the Liverwort Marchantia polymorpha L. Bulletin of Environmental Contamination and Toxicology, 2018. 100(3): p. 444-450.

23. Albert, N.W., et al., Genetic analysis of the liverwort Marchantia polymorpha reveals that R2R3MYB activation of flavonoid production in response to abiotic stress is an ancient character in land plants. New Phytologist, 2018. 218(2): p. 554-566.

24. Akashi, H., et al., Identification and Biochemical Characterization of the Serine Biosynthetic Enzyme 3-Phosphoglycerate Dehydrogenase in Marchantia polymorpha. Frontiers in Plant Science, 2018. 9.

25. Yelagandula, R., et al., Genome-Wide Profiling of Histone Modifications and Histone Variants in Arabidopsis thaliana and Marchantia polymorpha. Methods in molecular biology (Clifton, N.J.), 2017. 1610: p. 93-106.

26. Tawfik, M.M., et al., n-Hexanal and (Z)-3-hexenal are generated from arachidonic acid and linolenic acid by a lipoxygenase in Marchantia polymorpha L. Bioscience Biotechnology and Biochemistry, 2017. 81(6): p. 1148-1155.

27. Tanaka, H., et al., Chloroplast aggregation during the cold-positioning response in the liverwort Marchantia polymorpha. Journal of Plant Research, 2017. 130(6): p. 1061-1070.

28. Takahashi, H. and Y. Asakawa, Transcriptome Analysis of Marchantin Biosynthesis from the Liverwort Marchantia polymorpha. Natural Product Communications, 2017. 12(8): p. 1269-1272.

29. Sabovljevic, M.S., et al., Production of the macrocyclic bis-bibenzyls in axenically farmed and wild liverwort Marchantia polymorpha L. subsp ruderalis Bischl. et Boisselier. Plant Biosystems, 2017. 151(3): p. 414-418.

30. Nagaoka, N., et al., DRP3 and ELM1 are required for mitochondrial fission in the liverwort Marchantia polymorpha. Scientific Reports, 2017. 7.

31. Minamino, N., et al., Dynamic reorganization of the endomembrane system during spermatogenesis in Marchantia polymorpha. Journal of Plant Research, 2017. 130(3): p. 433-441.

32. Kupisz, K., H. Dziubinska, and K. Trebacz, Generation of action potential-type changes in response to darkening and illumination as indication of the plasma membrane proton pump status in Marchantia polymorpha. Acta Physiologiae Plantarum, 2017. 39(3).

33. Koselski, M., K. Trebacz, and H. Dziubinska, Vacuolar ion channels in the liverwort Marchantia polymorpha: influence of ion channel inhibitors. Planta, 2017. 245(5): p. 1049-1060.

34. Kopischke, S., et al., TALEN-mediated genome-editing approaches in the liverwort Marchantia polymorpha yield high efficiencies for targeted mutagenesis. Plant Methods, 2017. 13.

35. Kato, H., et al., The Roles of the Sole Activator-Type Auxin Response Factor in Pattern Formation of Marchantia polymorpha. Plant and Cell Physiology, 2017. 58(10): p. 1642-1651.

36. Jones, V.A.S. and L. Dolan, MpWIP regulates air pore complex development in the liverwort Marchantia polymorpha. Development, 2017. 144(8): p. 1472-1476.

37. Delmans, M., B. Pollak, and J. Haseloff, MarpoDB: An Open Registry for Marchantia Polymorpha Genetic Parts. Plant and Cell Physiology, 2017. 58(1).

38. Bowman, J.L., et al., Insights into Land Plant Evolution Garnered from the Marchantia polymorpha Genome. Cell, 2017. 171(2): p. 287-+.

39. Wang, X., et al., Flavonoids, Antioxidant Potential, and Acetylcholinesterase Inhibition Activity of the Extracts from the Gametophyte and Archegoniophore of Marchantia polymorpha L. Molecules, 2016. 21(3).

40. Tsuzuki, M., et al., Profiling and Characterization of Small RNAs in the Liverwort, Marchantia polymorpha, Belonging to the First Diverged Land Plants. Plant and Cell Physiology, 2016. 57(2): p. 359-372.

41. Tanaka, M., et al., Direct evidence of specific localization of sesquiterpenes and marchantin A in oil body cells of Marchantia polymorpha L. Phytochemistry, 2016. 130: p. 77-84.

42. Tanaka, D., et al., Cryopreservation of Gemmae from the Liverwort Marchantia polymorpha L. Plant and Cell Physiology, 2016. 57(2): p. 300-306.

43. Shimamura, M., Marchantia polymorpha: Taxonomy, Phylogeny and Morphology of a Model System. Plant and Cell Physiology, 2016. 57(2): p. 230-256.

44. Sawangproh, W., J. Ekroos, and N. Cronberg, The effect of ambient temperature on larvae of Scatopsciara cunicularius (Diptera: Sciaridae) feeding on the thallose liverwort Marchantia polymorpha. European Journal of Entomology, 2016. 113: p. 259-264.

45. Nishihama, R., et al., Conditional Gene Expression/Deletion Systems for Marchantia polymorpha Using its Own Heat-Shock Promoter and Cre/loxP-Mediated Site-Specific Recombination. Plant and Cell Physiology, 2016. 57(2): p. 271-280.

46. Lo, J.-C., et al., Evolutionary analysis of iron (Fe) acquisition system in Marchantia polymorpha. New Phytologist, 2016. 211(2): p. 569-583.

47. Lin, P.-C., et al., Identification of miRNAs and Their Targets in the Liverwort Marchantia polymorpha by Integrating RNA-Seq and Degradome Analyses. Plant and Cell Physiology, 2016. 57(2): p. 339-358.

48. Kumar, S., et al., Molecular Diversity of Terpene Synthases in the Liverwort Marchantia polymorpha. Plant Cell, 2016. 28(10): p. 2632-2650.

49. Kimura, S. and Y. Kodama, Actin-dependence of the chloroplast cold positioning response in the liverwort Marchantia polymorpha L. Peerj, 2016. 4.

50. Kanazawa, T., et al., SNARE Molecules in Marchantia polymorpha: Unique and Conserved Features of the Membrane Fusion Machinery. Plant and Cell Physiology, 2016. 57(2): p. 307-324.

51. Ishizaki, K., et al., Molecular Genetic Tools and Techniques for Marchantia polymorpha Research. Plant and Cell Physiology, 2016. 57(2): p. 262-270.

52. Inoue, K., et al., Phytochrome Signaling Is Mediated by PHYTOCHROME INTERACTING FACTOR in the Liverwort Marchantia polymorpha. Plant Cell, 2016. 28(6): p. 1406-1421.

53. Higo, A., et al., Transcriptional Framework of Male Gametogenesis in the Liverwort Marchantia polymorpha L. Plant and Cell Physiology, 2016. 57(2): p. 325-338.

54. Ghosh, T.K., et al., Abscisic acid-induced gene expression in the liverwort Marchantia polymorpha is mediated by evolutionarily conserved promoter elements. Physiologia Plantarum, 2016. 156(4): p. 407-420.

55. Flores-Sandoval, E., D.M. Eklund, and J.L. Bowman, Correction: A Simple Auxin Transcriptional Response System Regulates Multiple Morphogenetic Processes in the Liverwort Marchantia polymorpha. PLoS genetics, 2016. 12(2): p. e1005900-e1005900.

56. Flores-Sandoval, E., et al., Efficient and Inducible Use of Artificial MicroRNAs in Marchantia polymorpha. Plant and Cell Physiology, 2016. 57(2): p. 281-290.

57. Eklund, D.M., et al., Auxin produced by the indole-3-pyruvic acid pathway regulates development and gemmae dormancy in the liverwort Marchantia polymorpha (vol 27, pg 1650, 2015). Plant Cell, 2016. 28(1): p. 266-266.

58. Buschmann, H., et al., Microtubule dynamics of the centrosome-like polar organizers from the basal land plant Marchantia polymorpha. New Phytologist, 2016. 209(3): p. 999-1013.

59. Boehm, C.R., et al., A Cyan Fluorescent Reporter Expressed from the Chloroplast Genome of Marchantia polymorpha. Plant and Cell Physiology, 2016. 57(2): p. 291-299.

60. Yamamoto, Y., et al., Functional analysis of allene oxide cyclase, MpAOC, in the liverwort Marchantia polymorpha. Phytochemistry, 2015. 116: p. 48-56.

61. Wu, S.P., et al., CRYOPRESERVATION OF GEMMAE OF Marchantia polymorpha L. (Marchantiophyta, Marchantiaceae) WITHOUT PRIOR PRETREATMENT. Cryoletters, 2015. 36(2): p. 91-96.

62. Tsuboyama-Tanaka, S., S. Nonaka, and Y. Kodama, A highly efficient AgarTrap method for genetic transformation of mature thalli of the liverwort Marchantia polymorpha L. Plant Biotechnology, 2015. 32(4): p. 333-336.

63. Tsuboyama-Tanaka, S. and Y. Kodama, AgarTrap-mediated genetic transformation using intact gemmae/gemmalings of the liverwort Marchantia polymorpha L. Journal of Plant Research, 2015. 128(2): p. 337-344.

64. Takemura, M., S. Nagaya, and H. Kida, Effect of the 5 '-untranslated region on the expression of transgene in liverwort, Marchantia polymorpha. Plant Biotechnology, 2015. 32(4): p. 317-321.

65. Takemura, M., T. Maoka, and N. Misawa, Biosynthetic routes of hydroxylated carotenoids (xanthophylls) in Marchantia polymorpha, and production of novel and rare xanthophylls through pathway engineering in Escherichia coli. Planta, 2015. 241(3): p. 699-710.

66. Saint-Marcoux, D., et al., Identification of Reference Genes for Real-Time Quantitative PCR Experiments in the Liverwort Marchantia polymorpha. Plos One, 2015. 10(3).

67. Nishihama, R., et al., Phytochrome-mediated regulation of cell division and growth during regeneration and sporeling development in the liverwort Marchantia polymorpha. Journal of Plant Research, 2015. 128(3): p. 407-421.

68. Lockhart, J., The Elegant Simplicity of the Liverwort Marchantia polymorpha. Plant Cell, 2015. 27(6): p. 1565-1565.

69. Koeduka, T., et al., Biochemical characterization of allene oxide synthases from the liverwort Marchantia polymorpha and green microalgae Klebsormidium flaccidum provides insight into the evolutionary divergence of the plant CYP74 family. Planta, 2015. 242(5): p. 1175-1186.

70. Kato, H., et al., Auxin-Mediated Transcriptional System with a Minimal Set of Components Is Critical for Morphogenesis through the Life Cycle in Marchantia polymorpha. Plos Genetics, 2015. 11(5).

71. Kato, H., et al., Correction: Auxin-Mediated Transcriptional System with a Minimal Set of Components Is Critical for Morphogenesis through the Life Cycle in Marchantia polymorpha. PLoS genetics, 2015. 11(6): p. e1005365-e1005365.

72. Kageyama, A., et al., Abscisic acid induces biosynthesis of bisbibenzyls and tolerance to UV-C in the liverwort Marchantia polymorpha. Phytochemistry, 2015. 117: p. 547-553.

73. Ishizaki, K., et al., Development of Gateway Binary Vector Series with Four Different Selection Markers for the Liverwort Marchantia polymorpha. Plos One, 2015. 10(9).

74. Flores-Sandoval, E., D.M. Eklund, and J.L. Bowman, A Simple Auxin Transcriptional Response System Regulates Multiple Morphogenetic Processes in the Liverwort Marchantia polymorpha. Plos Genetics, 2015. 11(5).

75. Eklund, D.M., et al., Auxin Produced by the Indole-3-Pyruvic Acid Pathway Regulates Development and Gemmae Dormancy in the Liverwort Marchantia polymorph. Plant Cell, 2015. 27(6): p. 1650-1669.

76. Ueda, M., et al., chlB Requirement for Chlorophyll Biosynthesis under Short Photoperiod in Marchantia polymorpha L. Genome Biology and Evolution, 2014. 6(3): p. 620-628.

77. Tsuboyama, S. and Y. Kodama, AgarTrap: A Simplified Agrobacterium-Mediated Transformation Method for Sporelings of the Liverwort Marchantia polymorpha L. Plant and Cell Physiology, 2014. 55(1): p. 229-236.

78. Takikawa, Y., et al., Targeted destruction of fungal structures of Erysiphe trifoliorum on flat leaf surfaces of Marchantia polymorpha. Plant Biology, 2014. 16(1): p. 291-295.

79. Takemura, M., T. Maoka, and N. Misawa, Carotenoid Analysis of a Liverwort Marchantia polymorpha and Functional Identification of its Lycopene beta- and epsilon-Cyclase Genes. Plant and Cell Physiology, 2014. 55(1): p. 194-200.

80. Sugano, S.S., et al., CRISPR/Cas9-Mediated Targeted Mutagenesis in the Liverwort Marchantia polymorpha L. Plant and Cell Physiology, 2014. 55(3): p. 475-481.

81. Sharma, N., et al., RNA Sequencing Analysis of the Gametophyte Transcriptome from the Liverwort, Marchantia polymorpha. Plos One, 2014. 9(5).

82. Shanker, A., ПОИСК ПРОСТЫХ НУКЛЕОТИДНЫХ ПОВТОРОВ В ХЛОРОПЛАСТНОМ ГЕНОМЕ MARCHANTIA POLYMORPHA С ПОМОЩЬЮ КОМПЬЮТЕРНОЙ ПРОГРАММЫ

SIMPLE SEQUENCE REPEATS MINING USING COMPUTATIONAL APPROACH IN CHLOROPLAST GENOME OF MARCHANTIA POLYMORPHA. Arctoa, 2014. 23: p. 145-149.

83. Komatsu, A., et al., Phototropin Encoded by a Single-Copy Gene Mediates Chloroplast Photorelocation Movements in the Liverwort Marchantia polymorpha. Plant Physiology, 2014. 166(1): p. 411-U598.

84. Kihara, H., et al., Arachidonic acid-dependent carbon-eight volatile synthesis from wounded liverwort (Marchantia polymorpha). Phytochemistry, 2014. 107: p. 42-49.

85. Hatanaka, R., et al., Biochemical and structural characterization of an endoplasmic reticulum-localized late embryogenesis abundant (LEA) protein from the liverwort Marchantia polymorpha. Biochemical and Biophysical Research Communications, 2014. 454(4): p. 588-593.

86. Chiyoda, S., K.T. Yamato, and T. Kohchi, Plastid transformation of sporelings and suspension-cultured cells from the liverwort Marchantia polymorpha L. Methods in molecular biology (Clifton, N.J.), 2014. 1132: p. 439-47.

87. Cao, J.-G., et al., Formation and development of rhizoids of the liverwort Marchantia polymorpha. Journal of the Torrey Botanical Society, 2014. 141(2): p. 126-134.

88. Althoff, F., et al., Comparison of the MpEF1 alpha and CaMV35 promoters for application in Marchantia polymorpha overexpression studies. Transgenic Research, 2014. 23(2): p. 235-244.

89. Akter, K., et al., Abscisic acid-induced rearrangement of intracellular structures associated with freezing and desiccation stress tolerance in the liverwort Marchantia polymorpha. Journal of Plant Physiology, 2014. 171(15): p. 1334-1343.

90. Ueda, M., et al., Subfunctionalization of Sigma Factors during the Evolution of Land Plants Based on Mutant Analysis of Liverwort (Marchantia polymorpha L.) MpSIG1. Genome Biology and Evolution, 2013. 5(10): p. 1836-1848.

91. Takemura, M., et al., Bioproduction of prostaglandins in a transgenic liverwort, Marchantia polymorpha. Transgenic Research, 2013. 22(5): p. 905-911.

92. Sharma, N., P.L. Bhalla, and M.B. Singh, Transcriptome-wide profiling and expression analysis of transcription factor families in a liverwort, Marchantia polymorpha. Bmc Genomics, 2013. 14.

93. Scheck, J.E. and N.C. Maravolo, The effects of flavonoids on PARP-like activity in UV-C irradiated Marchantia polymorpha thalli. Bryologist, 2013. 116(4): p. 330-336.

94. Ogasawara, Y., et al., Cold-induced organelle relocation in the liverwort Marchantia polymorpha L. Plant Cell and Environment, 2013. 36(8): p. 1520-1528.

95. Kubota, A., et al., Efficient Agrobacterium-Mediated Transformation of the Liverwort Marchantia polymorpha Using Regenerating Thalli. Bioscience Biotechnology and Biochemistry, 2013. 77(1): p. 167-172.

96. Kanazawa, T., et al., Characterization of Four Nuclear-Encoded Plastid RNA Polymerase Sigma Factor Genes in the Liverwort Marchantia polymorpha: Blue-Light- and Multiple Stress-Responsive SIG5 was Acquired Early in the Emergence of Terrestrial Plants. Plant and Cell Physiology, 2013. 54(10): p. 1736-1748.

97. Ishizaki, K., et al., Essential Role of the E3 Ubiquitin Ligase NOPPERABO1 in Schizogenous Intercellular Space Formation in the Liverwort Marchantia polymorpha. Plant Cell, 2013. 25(10): p. 4075-4084.

98. Ishizaki, K., et al., Homologous recombination-mediated gene targeting in the liverwort Marchantia polymorpha L. Scientific Reports, 2013. 3.

99. Frett, T.J., M.J. Frelich, and N.C. Maravolo, The influence of spermine and hydrogen peroxide on programmed cell death in tuberculate rhizoids of Marchantia polymorpha. Bryologist, 2013. 116(2): p. 134-145.

100. Era, A., et al., Microtubule stability affects the unique motility of F-actin in Marchantia polymorpha. Journal of Plant Research, 2013. 126(1): p. 113-119.

101. Alfasane, M.A., M.S. Ullah, and M. Khondker, LIMNOLOGY OF LAKE RAINKHYONGKAIN OF BANGLADESH WITH A NEW RECORD OF MARCHANTIA POLYMORPHA L. VAR. AQUATICA NEES. Bangladesh Journal of Botany, 2013. 42(2): p. 223-229.

102. Ueda, M., et al., Composition and physiological function of the chloroplast NADH dehydrogenase-like complex in Marchantia polymorpha. Plant Journal, 2012. 72(4): p. 683-693.

103. Takemura, M., et al., Cold-Induced Accumulation of omega-3 Polyunsaturated Fatty Acid in a Liverwort, Marchantia polymorpha L. Bioscience Biotechnology and Biochemistry, 2012. 76(4): p. 785-790.

104. Shimoda, K., et al., Formation of Tetrahydrocurcumin by Reduction of Curcumin with Cultured Plant Cells of Marchantia polymorpha. Natural Product Communications, 2012. 7(4): p. 529-530.

105. Okumura, M., et al., Characterization of the Plasma Membrane H+-ATPase in the Liverwort Marchantia polymorpha. Plant Physiology, 2012. 159(2): p. 826-+.

106. Kanamoto, H., M. Takemura, and K. Ohyama, Cloning and expression of three lipoxygenase genes from liverwort, Marchantia polymorpha L., in Escherichia coli. Phytochemistry, 2012. 77: p. 70-78.

107. Jensen, S., et al., Marchantin A, a macrocyclic bisbibenzyl ether, isolated from the liverwort Marchantia polymorpha, inhibits protozoal growth in vitro. Phytomedicine, 2012. 19(13): p. 1191-1195.

108. Jensen, J.S.R.E., et al., Synergistic Cytotoxic Effect of the Microtubule Inhibitor Marchantin A from Marchantia polymorpha and the Aurora Kinase Inhibitor MLN8237 on Breast Cancer Cells In Vitro. Planta Medica, 2012. 78(5): p. 448-454.

109. Ishizaki, K., et al., Visualization of auxin-mediated transcriptional activation using a common auxin-responsive reporter system in the liverwort Marchantia polymorpha. Journal of Plant Research, 2012. 125(5): p. 643-651.

110. Hegazy, M.-E.F., et al., Steroidal Metabolites Transformed by Marchantia polymorpha Cultures Block Breast Cancer Estrogen Biosynthesis. Cell Biochemistry and Biophysics, 2012. 63(1): p. 85-96.

111. Gokbulut, A., et al., Antioxidant activity and luteolin content of Marchantia polymorpha L. Turkish Journal of Biology, 2012. 36(4): p. 381-385.

112. Takemura, M., et al., Blue light enhances the accumulation of eicosapentaenoic acid in a liverwort, Marchantia polymorpha L. Plant Biotechnology, 2011. 28(5): p. 489-492.

113. Nagaya, S., M. Takemura, and K. Ohyama, Endogenous promoter, 5 '-UTR and transcriptional terminator enhance transient gene expression in a liverwort, Marchantia polymorpha L. Plant Biotechnology, 2011. 28(5): p. 493-496.

114. Altland, J.E., et al., Differential Response of Liverwort (Marchantia polymorpha) Tissue to POST-Applied Quinoclamine. Weed Technology, 2011. 25(4): p. 580-585.

115. Tougane, K., et al., Evolutionarily Conserved Regulatory Mechanisms of Abscisic Acid Signaling in Land Plants: Characterization of ABSCISIC ACID INSENSITIVE1-Like Type 2C Protein Phosphatase in the Liverwort Marchantia polymorpha. Plant Physiology, 2010. 152(3): p. 1529-1543.

116. Hatanaka, R. and Y. Sugawara, Development of desiccation tolerance and vitrification by preculture treatment in suspension-cultured cells of the liverwort Marchantia polymorpha. Planta, 2010. 231(4): p. 965-976.

117. Haridy, M.S.A., et al., Biotransformation of Progesterone by Cultured Cells of Marchantia polymorpha. Zeitschrift Fur Naturforschung Section C-a Journal of Biosciences, 2010. 65(9-10): p. 599-602.

118. Shibaya, T. and Y. Sugawara, Induction of multinucleation by beta-glucosyl Yariv reagent in regenerated cells from Marchantia polymorpha protoplasts and involvement of arabinogalactan proteins in cell plate formation. Planta, 2009. 230(3): p. 581-588.

119. Pedroza-Manrique, J.A. and M. Caballero Arévalo, Evaluación del efecto del medio MS y la temperatura en el desarrollo de propágulos de Marchantia polymorpha L. (Marchantiaceae) bajo condiciones in vitro y ex vitro. Revista Colombiana de Biotecnología, 2009. 11(2): p. 85-104.

120. Ohyama, K., et al., Gene content, organization and molecular evolution of plant organellar genomes and sex chromosomes - Insights from the case of the liverwort Marchantia polymorpha. Proceedings of the Japan Academy Series B-Physical and Biological Sciences, 2009. 85(3): p. 108-124.

121. Kanamoto, H., M. Takemura, and K. Ohyama, Detection of 5-Lipoxygenase Activity in the Liverwort Marchantia polymorpha L. Bioscience Biotechnology and Biochemistry, 2009. 73(11): p. 2549-2551.

122. Era, A., et al., Application of Lifeact Reveals F-Actin Dynamics in Arabidopsis thaliana and the Liverwort, Marchantia polymorpha. Plant and Cell Physiology, 2009. 50(6): p. 1041-1048.

123. Potemkin, A.D., On comprehension of Marchantia polymorpha (Marchaniiophyta). Botanical Journal, 2008. 93(12): p. 1946-1949.

124. Ohyama, K. and M. Takeura, Molecular evolution of mitochondrial introns in the liverwort Marchantia polymorpha. Proceedings of the Japan Academy Series B-Physical and Biological Sciences, 2008. 84(1): p. 17-23.

125. Mewari, N. and P. Kumar, Antimicrobial Activity of Extracts of Marchantia polymorpha. Pharmaceutical Biology, 2008. 46(10-11): p. 819-822.

126. Ishizaki, K., et al., Agrobacterium-mediated transformation of the haploid liverwort Marchantia polymorpha L., an emerging model for plant biology. Plant and Cell Physiology, 2008. 49(7): p. 1084-1091.

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Saturday, November 3, 2018

Marchantia polymorpha, Liverwort, ゼニゴケ, Brunnenlebermoos, Hépatique des fontaines, Լերդամամուռ սովորական

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