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The SAM riboswitch (also known as the S-box leader and the SAM-I riboswitch) is found
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of a number of genes which code for proteins involved in
methionine Methionine (symbol Met or M) () is an essential amino acid in humans. As the precursor of other amino acids such as cysteine and taurine, versatile compounds such as SAM-e, and the important antioxidant glutathione, methionine plays a critical ro ...
or cysteine biosynthesis in
Gram-positive In bacteriology, gram-positive bacteria are bacteria that give a positive result in the Gram stain test, which is traditionally used to quickly classify bacteria into two broad categories according to their type of cell wall. Gram-positive bacte ...
bacteria. Two SAM riboswitches in ''
Bacillus subtilis ''Bacillus subtilis'', known also as the hay bacillus or grass bacillus, is a Gram-positive, catalase-positive bacterium, found in soil and the gastrointestinal tract of ruminants, humans and marine sponges. As a member of the genus ''Bacillus ...
'' that were experimentally studied act at the level of transcription termination control. The predicted
secondary structure Protein secondary structure is the three dimensional conformational isomerism, form of ''local segments'' of proteins. The two most common Protein structure#Secondary structure, secondary structural elements are alpha helix, alpha helices and beta ...
consists of a complex
stem-loop Stem-loop intramolecular base pairing is a pattern that can occur in single-stranded RNA. The structure is also known as a hairpin or hairpin loop. It occurs when two regions of the same strand, usually complementary in nucleotide sequence when ...
region followed by a single stem-loop terminator region. An alternative and mutually exclusive form involves bases in the 3' segment of helix 1 with those in the 5' region of helix 5 to form a structure termed the anti-terminator form. When SAM is unbound, the anti-terminator sequence sequesters the terminator sequence so the terminator is unable to form, allowing the polymerase to read-through the downstream gene.Winkler, W., Nahvi, A., Sudarsan, N., Barrick, J., and Breaker, R. (2003) An mRNA structure that controls gene expression by binding S-adenosylmethionine. Nature Structural Biology, 10(9), 701–707. When
S-Adenosyl methionine ''S''-Adenosyl methionine (SAM), also known under the commercial names of SAMe, SAM-e, or AdoMet, is a common cosubstrate involved in methyl group transfers, transsulfuration, and aminopropylation. Although these anabolic reactions occur throug ...
(SAM) is bound to the aptamer, the anti-terminator is sequestered by an anti-anti-terminator; the terminator forms and terminates the transcription. However, many SAM riboswitches are likely to regulate gene expression at the level of translation.


Structure organization

The structure of the SAM riboswitch has been determined with
X-ray crystallography X-ray crystallography is the experimental science determining the atomic and molecular structure of a crystal, in which the crystalline structure causes a beam of incident X-rays to diffract into many specific directions. By measuring the angles ...
. The SAM
riboswitch In molecular biology, a riboswitch is a regulatory segment of a messenger RNA molecule that binds a small molecule, resulting in a change in production of the proteins encoded by the mRNA. Thus, an mRNA that contains a riboswitch is directly invo ...
is organized about a four way junction, with two sets of coaxially stacked helices arranged side-by-side. These stacks are held together by a pseudoknot formed between the loop on the end of stem P2 and the J3/4 joining region. The formation of the pseudoknot is facilitated by a protein-independent kink turn that induces a 100° bend into P2. Ribosomal proteins, known to bind kink-turns in the ribosome, favor SAM aptamer folding by interacting with P2 kink-turn motif. Both the kink-turn and the pseudoknot are critical to the establishment of the global fold and productive binding. The binding pocket is split between conserved, tandem AU pairs in stem P1, the conserved G in the J1/2 joining region, and the conserved asymmetric bulge in stem P3. The adenosyl and methionine main-chain moieties of SAM are recognized through hydrogen-bonding into the bulge in P3 and the conserved G in J1/2. The methyl group is recognized indirectly through the charged sulfur, which forms an electrostatic interaction with the negative surface potential created by the tandem AU pairs in the minor groove of P1. These pairs are highly conserved and alterations to the orientation of these pairs, as well the identity of the bases in the pairs (i.e., GC pairs instead of AU pairs) result in reduced affinity for SAM. Affinity for SAH, however, is unaffected by changes to the P1 sequence, further supporting the idea that the interaction between SAM and the P1 helix is electrostatic in nature. Other structural classes of SAM-binding riboswitches have been found that are entirely different from that of the SAM-I riboswitch. These unrelated SAM-binding riboswitches are
SAM-II riboswitch The SAM-II riboswitch is a RNA element found predominantly in Alphaproteobacteria that binds S-adenosyl methionine (SAM). Its structure and sequence appear to be unrelated to the SAM riboswitch found in Gram-positive bacteria. This SAM riboswit ...
es, SAM-III riboswitches and SAM–SAH riboswitches. The details of these riboswitches are covered in their articles. There are also classes of SAM-binding riboswitches that are structurally related to SAM-I riboswitches.
SAM-IV riboswitch SAM-IV riboswitches are a kind of riboswitch that specifically binds S-adenosylmethionine (SAM), a cofactor used in many methylation reactions. Originally identified by bioinformatics, SAM-IV riboswitches are largely confined to the Actinomyce ...
es, appears to share a similar
ligand In coordination chemistry, a ligand is an ion or molecule (functional group) that binds to a central metal atom to form a coordination complex. The bonding with the metal generally involves formal donation of one or more of the ligand's electr ...
-binding site with that of SAM-I riboswitches, but in the context of a discreet distinct scaffold. In SAM-IV, the P4 stem is located downstream of the P1 stem and interacts, by a second pseudoknot, with P3, while the kink turn is absent. SAM-I/IV variant riboswitches combine features of SAM-I and SAM-IV riboswitches. For example, they have the P4 outside of the multistem junction, like SAM-IV riboswitches, but also often have a SAM-I–like P4 within the multistem junction. However, unlike SAM-I and SAM-IV riboswitches, the variant riboswitches entirely lack an internal loop in P2. As noted above, this internal loop in SAM-I riboswitches forms a kink turn motif that allows the RNA to form a pseudoknot. The variant riboswitches lack an internal loop that might allow such a turn, and also show no signs of forming the SAM-I–like pseudoknot.


See also

*
SAM-II riboswitch The SAM-II riboswitch is a RNA element found predominantly in Alphaproteobacteria that binds S-adenosyl methionine (SAM). Its structure and sequence appear to be unrelated to the SAM riboswitch found in Gram-positive bacteria. This SAM riboswit ...
* SAM-III riboswitch *
SAM-IV riboswitch SAM-IV riboswitches are a kind of riboswitch that specifically binds S-adenosylmethionine (SAM), a cofactor used in many methylation reactions. Originally identified by bioinformatics, SAM-IV riboswitches are largely confined to the Actinomyce ...
* SAM-V riboswitch * SAM-VI riboswitch


References


External links

* (a Wikipedia clone)
PDB entry for the SAM riboswitch tertiary structure
{{DEFAULTSORT:Sam Riboswitch (S Box Leader) Cis-regulatory RNA elements Riboswitch