Tina B Schreier
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Explore the profile of Tina B Schreier including associated specialties, affiliations and a list of published articles.
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Articles
14
Citations
200
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Recent Articles
1.
Swift J, Luginbuehl L, Hua L, Schreier T, Donald R, Stanley S, et al.
Nature
. 2024 Nov;
636(8041):143-150.
PMID: 39567684
C photosynthesis is used by the most productive plants on the planet, and compared with the ancestral C pathway, it confers a 50% increase in efficiency. In more than 60...
2.
Yelina N, Frangedakis E, Wang Z, Schreier T, Rever J, Tomaselli M, et al.
Cell Rep
. 2024 Sep;
43(9):114696.
PMID: 39235940
Chloroplasts develop from undifferentiated plastids in response to light. In angiosperms, after the perception of light, the Elongated Hypocotyl 5 (HY5) transcription factor initiates photomorphogenesis, and two families of transcription...
3.
Schreier T, Muller K, Eicke S, Faulkner C, Zeeman S, Hibberd J
New Phytol
. 2023 Oct;
241(1):298-313.
PMID: 37882365
In leaves of C plants, the reactions of photosynthesis become restricted between two compartments. Typically, this allows accumulation of C acids in mesophyll (M) cells and subsequent decarboxylation in the...
4.
Singh P, Stevenson S, Dickinson P, Reyna-Llorens I, Tripathi A, Reeves G, et al.
Sci Adv
. 2023 Mar;
9(13):eade9756.
PMID: 36989352
C photosynthesis has evolved by repurposing enzymes found in C plants. Compared with the ancestral C state, accumulation of C cycle proteins is enhanced. We used de-etiolation of C and...
5.
Billakurthi K, Schulze S, Schulz E, Sage T, Schreier T, Hibberd J, et al.
Plant Direct
. 2022 Oct;
6(10):e455.
PMID: 36263108
A key feature of C Kranz anatomy is the presence of an enlarged, photosynthetically highly active bundle sheath whose cells contain large numbers of chloroplasts. With the aim to identify...
6.
Cackett L, Luginbuehl L, Schreier T, Lopez-Juez E, Hibberd J
New Phytol
. 2021 Nov;
233(5):2000-2016.
PMID: 34729790
Chloroplasts are best known for their role in photosynthesis, but they also allow nitrogen and sulphur assimilation, amino acid, fatty acid, nucleotide and hormone synthesis. How chloroplasts develop is therefore...
7.
Schreier T, Fahy B, David L, Siddiqui H, Castells-Graells R, Smith A
Plant J
. 2021 Mar;
106(5):1431-1442.
PMID: 33764607
We expressed a bacterial glucan synthase (Agrobacterium GlgA) in the cytosol of developing endosperm cells in wheat grains, to discover whether it could generate a glucan from cytosolic ADP-glucose. Transgenic...
8.
Billakurthi K, Schreier T
J Exp Bot
. 2020 Sep;
71(18):5298-5301.
PMID: 32949244
No abstract available.
9.
Schreier T, Umhang M, Lee S, Lue W, Shen Z, Silver D, et al.
Plant Cell
. 2019 Jul;
31(9):2169-2186.
PMID: 31266901
In Arabidopsis () leaves, starch is synthesized during the day and degraded at night to fuel growth and metabolism. Starch is degraded primarily by β-amylases, liberating maltose, but this activity...
10.