Found: 29
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Practical application of proximal sensing for monitoring the growth of Physcomitrium patens.
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- Biological Sciences in Space, 2021, v. 35, p. 32, doi. 10.2187/bss.35.32
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- Article
Comparisons of the Effects of Vibration of Two Centrifugal Systems on the Growth and Morphological Parameters of the Moss Physcomitrella patens.
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- Biological Sciences in Space, 2017, v. 31, p. 9, doi. 10.2187/bss.31.9
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- Article
Characterisation of rapid alkalinisation factors in Physcomitrium patens reveals functional conservation in tip growth.
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- New Phytologist, 2022, v. 233, n. 6, p. 2442, doi. 10.1111/nph.17942
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- Article
Convergent evolution of shoots in land plants: lack of auxin polar transport in moss shoots.
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- Evolution & Development, 2008, v. 10, n. 2, p. 176, doi. 10.1111/j.1525-142X.2008.00225.x
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- Article
Three-dimensionally visualized rhizoid system of moss, Physcomitrium patens, by refraction-contrast X-ray micro-computed tomography.
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- Microscopy, 2022, v. 71, n. 6, p. 364, doi. 10.1093/jmicro/dfac041
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- Article
The Physcomitrella patens gene atlas project: large‐scale RNA‐seq based expression data.
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- Plant Journal, 2018, v. 95, n. 1, p. 168, doi. 10.1111/tpj.13940
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- Article
Molecular biology of mosses.
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- Plant Molecular Biology, 2021, v. 107, n. 4/5, p. 209, doi. 10.1007/s11103-021-01218-9
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- Article
How plants grow under gravity conditions besides 1 g: perspectives from hypergravity and space experiments that employ bryophytes as a model organism.
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- Plant Molecular Biology, 2021, v. 107, n. 4/5, p. 279, doi. 10.1007/s11103-021-01146-8
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- Article
Expression and Complementation Analyses of a Chloroplast-Localized Homolog of Bacterial RecA in the Moss Physcomitrella patens.
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- Bioscience, Biotechnology & Biochemistry, 2008, v. 72, n. 5, p. 1340, doi. 10.1271/bbb.80014
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- Article
Unraveling the Mechanism of Cork Spot-like Physiological Disorders in 'Kurenainoyume' Apples Based on Occurrence Location.
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- Plants (2223-7747), 2024, v. 13, n. 3, p. 381, doi. 10.3390/plants13030381
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- Article
AP2/ERF transcription factors regulate salt-induced chloroplast division in the moss Physcomitrella patens.
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- Journal of Plant Research, 2020, v. 133, n. 4, p. 537, doi. 10.1007/s10265-020-01195-y
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- Article
Formation of a PSI–PSII megacomplex containing LHCSR and PsbS in the moss Physcomitrella patens.
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- Journal of Plant Research, 2019, v. 132, n. 6, p. 867, doi. 10.1007/s10265-019-01138-2
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- Article
Correction to: A hypergravity environment increases chloroplast size, photosynthesis, and plant growth in the moss Physcomitrella patens.
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- 2018
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- Correction Notice
A hypergravity environment increases chloroplast size, photosynthesis, and plant growth in the moss Physcomitrella patens.
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- Journal of Plant Research, 2017, v. 130, n. 1, p. 181, doi. 10.1007/s10265-016-0879-z
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- Article
A model system for analyzing intercellular communication through plasmodesmata using moss protonemata and leaves.
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- Journal of Plant Research, 2015, v. 128, n. 1, p. 63, doi. 10.1007/s10265-014-0690-7
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- Article
Plasmodesmata: function and diversity in plant intercellular communication.
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- Journal of Plant Research, 2015, v. 128, n. 1, p. 3, doi. 10.1007/s10265-014-0697-0
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- Article
Does proline accumulation play an active role in stress-induced growth reduction?
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- Plant Journal, 2002, v. 31, n. 6, p. 699, doi. 10.1046/j.1365-313X.2002.01389.x
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- Article
Establishment of gene-trap and enhancer-trap systems in the moss Physcomitrella patens.
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- Plant Journal, 2001, v. 28, n. 1, p. 105, doi. 10.1046/j.1365-313X.2001.01121.x
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- Article
Cloning of cDNAs for genes that are specifically or preferentially expressed during the development of tobacco genetic tumors.
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- Plant Journal, 1994, v. 5, n. 5, p. 645, doi. 10.1111/j.1365-313X.1994.00645.x
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- Article
Microtubules Regulate Dynamic Organization of Vacuoles in Physcomitrella patens.
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- Plant & Cell Physiology, 2009, v. 50, n. 4, p. 855, doi. 10.1093/pcp/pcp031
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- Article
Oncogene 6b from Agrobacterium tumefaciens Induces Abaxial Cell Division at Late Stages of Leaf Development and Modifies Vascular Development in Petioles.
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- Plant & Cell Physiology, 2006, v. 47, n. 5, p. 664, doi. 10.1093/pcp/pcj036
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- Article
Amino Acid Substitution Analyses of the DNA Contact Region, Two Amphipathic α-Helices and a Recognition-Helix-Like Helix outside the Dimeric β-Barrel of Epstein-Barr Virus Nuclear Antigen 1.
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- Intervirology, 2001, v. 44, n. 5, p. 271, doi. 10.1159/000050058
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- Article
Quantitative imaging of directional transport through plasmodesmata in moss protonemata via single-cell photoconversion of Dendra2.
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- Journal of Plant Research, 2013, v. 126, n. 4, p. 577, doi. 10.1007/s10265-013-0547-5
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- Article
Substitution of Deoxycholate with the Amphiphilic Polymer Amphipol A8-35 Improves the Stability of Large Protein Complexes during Native Electrophoresis.
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- Plant & Cell Physiology, 2021, v. 62, n. 2, p. 348, doi. 10.1093/pcp/pcaa165
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- Article
Quantitative Imaging Reveals Distinct Contributions of SnRK2 and ABI3 in Plasmodesmatal Permeability in Physcomitrella patens.
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- Plant & Cell Physiology, 2020, v. 61, n. 5, p. 942, doi. 10.1093/pcp/pcaa021
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- Article
The PSI–PSII Megacomplex in Green Plants.
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- Plant & Cell Physiology, 2019, v. 60, n. 5, p. 1098, doi. 10.1093/pcp/pcz026
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- Article
Abscisic Acid Acts as a Regulator of Molecular Trafficking through Plasmodesmata in the Moss Physcomitrella patens.
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- Plant & Cell Physiology, 2019, v. 60, n. 4, p. 738, doi. 10.1093/pcp/pcy249
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- Article
PCoM-DB Update: A Protein Co-Migration Database for Photosynthetic Organisms.
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- Plant & Cell Physiology, 2017, v. 58, n. 1, p. 1, doi. 10.1093/pcp/pcw219
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- Article
bryophytes Physcomitrium patens and Marchantia polymorpha as model systems for studying evolutionary cell and developmental biology in plants.
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- Plant Cell, 2022, v. 34, n. 1, p. 228, doi. 10.1093/plcell/koab218
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- Article