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- ...8 nm in diameter) of [[iron(III) oxide hydroxide]], inside a shell of the protein [[ferritin]], from which it can be recovered as needed.<ref>{{cite book |au ...ironments by secreting compounds called [[siderophore]]s that form soluble complexes with iron(III), that can be reabsorbed into the cell. (The other plants ins ...9 KB (1,291 words) - 03:03, 18 September 2025
- {{short description|Three dimensional shape of a protein}} {{about|tertiary structure in protein|the article about tertiary structure in nucleic acid|Nucleic acid tertiary ...12 KB (1,716 words) - 07:34, 4 May 2026
- {{short description|Small protein domain found in some kinases and GTPases}} {{Infobox protein family ...8 KB (1,096 words) - 14:34, 25 May 2026
- {{short description|Number and arrangement of multiple folded protein subunits in a multi-subunit complex}} {{Protein structure}} ...21 KB (2,726 words) - 14:28, 26 January 2026
- {{Infobox protein family |image=Hemerythrin Monomer (1HMO).png|caption=Singly oxygenated hemerythrin protein. {{PDB|1HMO}} ...9 KB (1,302 words) - 17:48, 18 November 2025
- ...lisher = [[University of Oxford]] | accessdate = 9 May 2022}}</ref> Many [[protein]]s in living beings contain iron(II) centers. Examples of such [[metallopro ...]] of aqueous iron]]In contrast to iron(III) aquo complexes, iron(II) aquo complexes are soluble in water near neutral pH.{{citation needed|date=April 2024}} Fe ...9 KB (1,273 words) - 02:40, 18 September 2025
- |title = Protein Data Bank |description = {{unbulleted list |[[Protein structure]]|[[X-ray crystallography]]|[[Cryogenic electron microscopy|cryoE ...18 KB (2,528 words) - 18:56, 24 May 2026
- ...rs = Manning G, Whyte DB, Martinez R, Hunter T, Sudarsanam S | title = The protein kinase complement of the human genome | journal = Science | volume = 298 | ...{cite journal | vauthors = Barford D | title = Molecular mechanisms of the protein serine/threonine phosphatases | journal = Trends in Biochemical Sciences | ...22 KB (2,847 words) - 18:08, 10 May 2026
- {{Distinguish|Protein G}} ...hosducin]]-[[transducin]] beta-gamma complex. Beta and gamma subunits of G-protein are shown by blue and red, respectively.]] ...25 KB (3,334 words) - 00:00, 24 March 2026
- ...Conserved sequence|conserved]] [[P-loop]] "G domain", a [[domain (protein)|protein domain]] common to many GTPases.<ref name="pmid8462668"/> ...ction]] in response to activation of cell surface receptors, including [[G protein-coupled receptor|transmembrane receptor]]s such as those mediating [[taste] ...20 KB (2,718 words) - 17:21, 3 September 2025
- {{Short description|Transport protein}} A '''proton pump''' is an [[integral membrane protein]] pump that builds up a [[electrochemical gradient|proton gradient]] across ...14 KB (2,005 words) - 12:16, 11 February 2026
- {{Infobox protein family | OPM protein = 3cx5 ...24 KB (3,130 words) - 04:10, 3 October 2025
- ...f>{{Cite journal |url=https://wellcomelibrary.org/item/b1817789x |title=On protein synthesis |last=Crick |first=Francis. H. C. |date=1958 |journal=Symposia of ...ence, either of bases in the nucleic acid or of amino acid residues in the protein.}} ...23 KB (3,275 words) - 00:22, 11 March 2026
- ...ation.gif|thumb|300px|left| A [[ribosome]] is a [[biological machine]]. [[Protein domain dynamics]] can only be seen by [[neutron spin echo]] spectroscopy ]] ...stems of a cell, including the interactions between [[DNA]], [[RNA]] and [[protein biosynthesis]], as well as how these interactions are regulated. A great va ...16 KB (2,033 words) - 07:41, 5 May 2026
- ...somal protein]]s from the nucleus to the cytoplasm, and the transport of [[protein]]s (such as [[DNA polymerase]] and [[lamin]]s), [[carbohydrates]], [[signal ...adient]]s associated with the [[Ran cycle|RAN cycle]] (Ras-related nuclear protein cycle). In 2022 around 90% of the structure of the human NPC was elucidated ...29 KB (3,992 words) - 09:30, 7 May 2026
- {{short description|Linear sequence of amino acids in a peptide or protein}} {{Protein structure}} ...20 KB (2,763 words) - 01:24, 14 June 2025
- ...n which a cell transports [[molecule]]s (e.g., [[neurotransmitter]]s and [[protein]]s) out of the cell. As an active transport mechanism, exocytosis requires ...an also be released via [[reverse transport]] through [[membrane transport protein]]s. ...15 KB (2,122 words) - 03:33, 23 April 2026
- ...in'''") is a lightly packed form of [[chromatin]] ([[DNA]], [[RNA]], and [[protein]]) that is enriched in [[gene]]s, and is often (but not always) under activ ...ch more widely spaced, which allows for easier access of different protein complexes to the DNA strand and thus increased gene [[Transcription (biology)|transcr ...17 KB (2,228 words) - 04:54, 15 November 2025
- ...s and used in a number of [[Chromatography|chromatographic]] methods for [[protein purification]]. It can also be used instead of agar as a solid medium for c ...ite book |url=https://books.google.com/books?id=z-bZ_FZHqRcC&pg=PA7 |title=Protein Electrophoresis in Clinical Diagnosis | vauthors = Keren D |pages=7–8 |publ ...20 KB (2,903 words) - 14:27, 25 November 2025
- ...roscopy, thereby permitting the study of individual proteins and molecular complexes in three-dimensions at angstrom resolution. ...Hemoglobin t-r state ani.gif|thumb|[[Hemoglobin]], the oxygen transporting protein found in red blood cells]] ...20 KB (2,576 words) - 23:36, 21 March 2026