ニセツリガネゴケ
- 関
- bryopsida、Ceratodon、Physcomitrella patens
Wikipedia preview
出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2016/01/08 19:51:42」(JST)
[Wiki en表示]
| Physcomitrella |
|
| Physcomitrella patens |
| Scientific classification |
| Kingdom: |
Plantae |
| Division: |
Bryophyta |
| Class: |
Bryopsida |
| Subclass: |
Funariidae |
| Order: |
Funariales |
| Family: |
Funariaceae |
| Genus: |
Physcomitrella |
| Species |
|
Physcomitrella patens
Physcomitrella readeri
|
Physcomitrella is a genus of mosses, containing two[1] species. Physcomitrella patens is a model organism in laboratory research. Physcomitrella readeri is fairly similar, distinguished only by subtle characteristics. In fact, it has often been debated whether they should rightly be considered separate species, or a single species.[2]
References
- ^ "Physcomitrella". Flora of North America. Retrieved 2008-02-05.
- ^ "Physcomitrella readeri". Flora of North America. Retrieved 2008-02-05.
English Journal
- Pharmacokinetics, pharmacodynamics, and safety of moss-aGalactosidase A in patients with Fabry disease.
- Hennermann JB, Arash-Kaps L, Fekete G, Schaaf A, Busch A, Frischmuth T.
- Journal of inherited metabolic disease. 2019 May;42(3)527-533.
- Moss-aGalactosidase A (moss-aGal) is a moss-derived version of human α-galactosidase developed for enzyme replacement therapy in patients with Fabry disease. It exhibits a homogenous N-glycosylation profile with >90% mannose-terminated glycans. In contrast to mammalian cell produced α-galactosidas
- PMID 30746723
- POLQ plays a key role in the repair of CRISPR/Cas9-induced double-stranded breaks in the moss Physcomitrella patens.
- Mara K, Charlot F, Guyon-Debast A, Schaefer DG, Collonnier C, Grelon M, Nogué F.
- The New phytologist. 2019 May;222(3)1380-1391.
- Double-stranded breaks can be repaired by different mechanisms such as homologous recombination (HR), classical nonhomologous end joining (C-NHEJ) and alternative end joining (Alt-EJ). Polymerase Q (POLQ) has been proposed to be the main factor involved in Alt-EJ-mediated DNA repair. Here we describ
- PMID 30636294
- Role of cyclic and pseudo-cyclic electron transport in response to dynamic light changes in Physcomitrella patens.
- Storti M, Alboresi A, Gerotto C, Aro EM, Finazzi G, Morosinotto T.
- Plant, cell & environment. 2019 May;42(5)1590-1602.
- Photosynthetic organisms support cell metabolism by harvesting sunlight and driving the electron transport chain at the level of thylakoid membranes. Excitation energy and electron flow in the photosynthetic apparatus is continuously modulated in response to dynamic environmental conditions. Alterna
- PMID 30496624
Japanese Journal
- A hypergravity environment increases chloroplast size, photosynthesis, and plant growth in the moss Physcomitrella patens
- 紫外線変異誘発によるヒメツリガネゴケアブシシン酸非感受性変異株の単離
- Proteomics of Physcomitrella patens protonemata subjected to treatment with 12-oxo-phytodienoic acid
- Bioscience biotechnology and biochemistry 80(12), 2357-2364, 2016-12
- NAID 120006335567
Related Links
- ... soybean, sorghum, and rice. Having the full Physcomitrella genome sequence is a great asset for reconstructing the evolution of plant genomes and for informing the community in the functional genomics of plants, just as, ...
- Welcome to PHYSCObase! The PHYSCObase is intended for sharing information on the moss Physcomitrella patens(Physcomitrella) with the community.
★リンクテーブル★
[★]
ヤノウエノアカゴケ属、セラトドン属、Ceratodon属
- 関
- bryopsida、Physcomitrella
[★]
蘚綱
- 関
- Ceratodon、Musci、Physcomitrella
[★]
ニセツリガネゴケ、(変種として)メツリガネゴケ
- 関
- Physcomitrella