Stephen C Fry
Overview
Explore the profile of Stephen C Fry including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
115
Citations
2475
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
11.
Begum R, Messenger D, Fry S
Plant J
. 2023 Jan;
113(6):1310-1329.
PMID: 36658763
Cross-linking of the cell-wall pectin domain rhamnogalacturonan-II (RG-II) via boron bridges between apiose residues is essential for normal plant growth and development, but little is known about its mechanism or...
12.
Begum R, Fry S
Ann Bot
. 2022 Sep;
130(5):703-715.
PMID: 36112021
Background And Aims: Rhamnogalacturonan-II (RG-II) is a domain of primary cell-wall pectin. Pairs of RG-II domains are covalently cross-linked via borate diester bridges, necessary for normal cell growth. Interpreting the...
13.
Sanhueza D, Begum R, Albenne C, Jamet E, Fry S
Biochem J
. 2022 Sep;
479(18):1967-1984.
PMID: 36062804
Rhamnogalacturonan-II (RG-II) is a complex pectic domain in plant primary cell walls. In vivo, most RG-II domains are covalently dimerised via borate diester bridges, essential for correct cell-wall assembly, but...
14.
Frankova L, Fry S
Plant J
. 2021 Sep;
108(1):7-28.
PMID: 34547150
Transglycanases remodel cell-wall polymers, having a critical impact on many physiological processes. Unlike xyloglucan endotransglucosylase (XET) activity, widely studied in land plants, very little is known about charophyte wall-modifying enzymes...
15.
Mikkelsen M, Harholt J, Westereng B, Domozych D, Fry S, Johansen I, et al.
Commun Biol
. 2021 Jun;
4(1):754.
PMID: 34140625
The charophycean green algae (CGA or basal streptophytes) are of particular evolutionary significance because their ancestors gave rise to land plants. One outstanding feature of these algae is that their...
16.
Al Hinai T, Vreeburg R, Mackay C, Murray L, Sadler I, Fry S
Ann Bot
. 2021 Jun;
128(5):511-525.
PMID: 34111288
Background And Aims: The programmed softening occurring during fruit development requires scission of cell wall polysaccharides, especially pectin. Proposed mechanisms include the action of wall enzymes or hydroxyl radicals. Enzyme...
17.
Xin A, Fry S
J Plant Physiol
. 2021 May;
262:153446.
PMID: 34051591
The shoot epidermal cell wall in land-plants is associated with a polyester, cutin, which controls water loss and possibly organ expansion. Covalent bonds between cutin and its neighbouring cell-wall polysaccharides...
18.
Fry S
New Phytol
. 2021 Apr;
161(3):641-675.
PMID: 33873719
Numerous examples have been presented of enzyme activities, assayed in vitro, that appear relevant to the synthesis of structural polysaccharides, and to their assembly and subsequent degradation in the primary...
19.
Popper Z, Fry S
New Phytol
. 2021 Apr;
164(1):165-174.
PMID: 33873476
• Primary cell walls (PCWs) of major vascular plant taxa were analysed as a contribution towards understanding wall evolution. • Alcohol-insoluble residues from immature shoots were acid- or enzyme-hydrolysed and...
20.
Xin A, Fei Y, Molnar A, Fry S
Biochem J
. 2021 Jan;
478(4):777-798.
PMID: 33511979
Cutin is a polyester matrix mainly composed of hydroxy-fatty acids that occurs in the cuticles of shoots and root-caps. The cuticle, of which cutin is a major component, protects the...