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Showing results for thlaspi m
Search for Thlapi M instead (1 results)
Genomic analysis of field pennycress (Thlaspi arvense) provides insights into mechanisms of adaptation to high elevation.
Geng Y, Guan Y, Qiong L, Lu S, An M, Crabbe MJC, Qi J, Zhao F, Qiao Q, Zhang T. Geng Y, et al. BMC Biol. 2021 Jul 22;19(1):143. doi: 10.1186/s12915-021-01079-0. BMC Biol. 2021. PMID: 34294107 Free PMC article.
High-altitude regions often provide extreme environments including low temperature and oxygen concentration, poor soil, and strong levels of ultraviolet radiation, leading to very few plant species being able to populate elevation ranges greater than 4000 m. Field pennycre …
High-altitude regions often provide extreme environments including low temperature and oxygen concentration, poor soil, and strong levels of …
Rapid Genome Evolution and Adaptation of Thlaspi arvense Mediated by Recurrent RNA-Based and Tandem Gene Duplications.
Hu Y, Wu X, Jin G, Peng J, Leng R, Li L, Gui D, Fan C, Zhang C. Hu Y, et al. Front Plant Sci. 2022 Jan 4;12:772655. doi: 10.3389/fpls.2021.772655. eCollection 2021. Front Plant Sci. 2022. PMID: 35058947 Free PMC article.
Retrotransposons are the most abundant group of transposable elements (TEs) in plants, providing an extraordinarily versatile source of genetic variation. Thlaspi arvense, a close relative of the model plant Arabidopsis thaliana with worldwide distribution, thrives from se …
Retrotransposons are the most abundant group of transposable elements (TEs) in plants, providing an extraordinarily versatile source of gene …
Life history traits of the pseudometallophyte Thlaspi caerulescens in natural populations from Northern Europe.
Dechamps C, Elvinger N, Meerts P, Lefèbvre C, Escarré J, Colling G, Noret N. Dechamps C, et al. Plant Biol (Stuttg). 2011 Jan;13 Suppl 1:125-35. doi: 10.1111/j.1438-8677.2010.00387.x. Epub 2010 Aug 17. Plant Biol (Stuttg). 2011. PMID: 21134096
We examined recruitment, survival, life cycle and fecundity of two metallicolous (M, on metalliferous calamine soils) and two non-metallicolous (NM, on normal soils) populations of Thlaspi caerulescens in Belgium and Luxemburg. ...These differences in life cycle wer …
We examined recruitment, survival, life cycle and fecundity of two metallicolous (M, on metalliferous calamine soils) and two non-met …
The pennycress (Thlaspi arvense L.) nectary: structural and transcriptomic characterization.
Thomas JB, Hampton ME, Dorn KM, David Marks M, Carter CJ. Thomas JB, et al. BMC Plant Biol. 2017 Nov 14;17(1):201. doi: 10.1186/s12870-017-1146-8. BMC Plant Biol. 2017. PMID: 29137608 Free PMC article.
BACKGROUND: Pennycress [Thlaspi arvense L (Brassicaceae)] is being domesticated as a renewable biodiesel feedstock that also provides crucial ecosystems services, including as a nutritional resource for pollinators. ...To understand the molecular biology of the pennycress …
BACKGROUND: Pennycress [Thlaspi arvense L (Brassicaceae)] is being domesticated as a renewable biodiesel feedstock that also provides …
Phylogeography of Thlaspi arvense (Brassicaceae) in China Inferred from Chloroplast and Nuclear DNA Sequences and Ecological Niche Modeling.
An M, Zeng L, Zhang T, Zhong Y. An M, et al. Int J Mol Sci. 2015 Jun 11;16(6):13339-55. doi: 10.3390/ijms160613339. Int J Mol Sci. 2015. PMID: 26110380 Free PMC article.
Thlaspi arvense is a well-known annual farmland weed with worldwide distribution, which can be found from sea level to above 4000 m high on the Qinghai-Tibetan Plateau (QTP). ...
Thlaspi arvense is a well-known annual farmland weed with worldwide distribution, which can be found from sea level to above 4000
Characterization of Ni-tolerant methylobacteria associated with the hyperaccumulating plant Thlaspi goesingense and description of Methylobacterium goesingense sp. nov.
Idris R, Kuffner M, Bodrossy L, Puschenreiter M, Monchy S, Wenzel WW, Sessitsch A. Idris R, et al. Syst Appl Microbiol. 2006 Dec;29(8):634-44. doi: 10.1016/j.syapm.2006.01.011. Epub 2006 Feb 20. Syst Appl Microbiol. 2006. PMID: 16488569
Various pink-pigmented facultative methylotrophic (PPFM) bacteria (strains iEII3, iEIV1, iEI6, iEII1, iEIII3 iEIII4, iEIII5, iRII1, iRII2, iRIII1, iRIV1 and iRIV2) were obtained from the rhizosphere and endosphere of hyperaccumulating plant Thlaspi goesingense grown in Red …
Various pink-pigmented facultative methylotrophic (PPFM) bacteria (strains iEII3, iEIV1, iEI6, iEII1, iEIII3 iEIII4, iEIII5, iRII1, iRII2, i …
Life history variation in Thlaspi caerulescens.
Macnair M. Macnair M. New Phytol. 2007;173(1):6-8. doi: 10.1111/j.1469-8137.2006.01948.x. New Phytol. 2007. PMID: 17176388 Free article. No abstract available.
Altered Zn compartmentation in the root symplasm and stimulated Zn absorption into the leaf as mechanisms involved in Zn hyperaccumulation in thlaspi caerulescens.
Lasat MM, Baker AJ, Kochian LV. Lasat MM, et al. Plant Physiol. 1998 Nov;118(3):875-83. doi: 10.1104/pp.118.3.875. Plant Physiol. 1998. PMID: 9808732 Free PMC article.
This is supported by analysis of xylem exudate collected from detopped Thlaspi species seedlings. When seedlings of the two species were grown on either low (1 &mgr;M) or high (50 &mgr;M) Zn, xylem sap of T. caerulescens contained approximately 5-fold …
This is supported by analysis of xylem exudate collected from detopped Thlaspi species seedlings. When seedlings of the two species w …
Evolution of genome size in Brassicaceae.
Johnston JS, Pepper AE, Hall AE, Chen ZJ, Hodnett G, Drabek J, Lopez R, Price HJ. Johnston JS, et al. Ann Bot. 2005 Jan;95(1):229-35. doi: 10.1093/aob/mci016. Ann Bot. 2005. PMID: 15596470 Free PMC article.
Branches in the phylogenetic tree that represent probable evolutionary increases in genome size terminate in Arabidopsis halleri, A. lyrata, Arabis hirsuta, Capsella rubella, Caulanthus heterophyllus, Crucihimalaya, Lepidium sativum, Sisymbrium and Thlaspi arvense. Branche …
Branches in the phylogenetic tree that represent probable evolutionary increases in genome size terminate in Arabidopsis halleri, A. lyrata, …
31 results