User:Fadel A. Samatey/FlgE II/Complete Flagellar Hook Structure

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Nature Communications an online-only, open access journal: nature.com/ncomms

Complete structure of the bacterial flagellar hook reveals extensive set of stabilizing interactions.
Hideyuki Matsunami, Clive S. Barker, Young-Ho Yoon, Matthias Wolf, and Fadel A. Samatey.
Nature Communications 7:13425, 2016: nature.com/articles/ncomms13425. (DOI: 10.1038/ncomms13425)

The interactive Molecular Tour below assumes that you are familiar with the journal article^[1].

Molecular Tour

The structure of the flagellar hook FlgE of Campylobacter jejuni strain 81116 (FlgE-Cj; NCBI WP_012006803) was determined by cryo-electron microscopy to a resolution of 3.5 Å. Initially we show a model containing 55 monomers of FlgE (). This model contains 349,965 non-hydrogen atoms. To make this model manageable, we are showing only the 48,805 alpha carbon atoms^[2]. Each of the 55 chains is given a distinct color.

1 Domains
2 L-Stretch "Fingers"
3 Core and Channel
4 Contacts Between Monomers

Domains

FlgE-Cj has 5 domains, D0 through D4. D0 is made up of two helices, and an "L-stretch". Here as in Fig. 2b-f, except that the L-stretch is yellow:

Domain 4:

Domain 3:

Domain 2:

Domain 1:

Domain 0 L-stretch:

Domain 0 Helices:

The above switches also work on the .

L-Stretch "Fingers"

Use the above off/on switches to hide everything except D0. You will see "fingers" protruding from the D0 core of the hook. Each "finger" is an L-stretch portion of a D0 domain. Now show D1 and D0 (leaving D2-D4 hidden). You can see how the L-stretch fingers insert between copies of D1, interlinking D0 with D1.

Here is (see color key above). The L-stretch is in the D0 domain, and points "out to the side". Notice how it ends in a hook that will anchor itself between D1 domains.

Core and Channel

All scenes in this subsection show only the D0 helices, with the D0 L-stretch, and D1-D4 hidden.

The is made up of the N-terminal alpha helix (residues 1-31)^[3] and the C-terminal alpha helix (residues 812-851)^[3]. The inner surface of the channel is lined with the C-terminal helices, while the N-terminal helices form the outer layer of the core. This may be appreciated more clearly with . To see the inside of the channel:

The ^[4].

Hydrophobic, Polar

Although the inside surface of the channel is hydrophilic (polar), it contains .

Anionic (-) / Cationic (+)

There is one salt bridge visible in the channel (Arg827:Asp840). Not only are the charges neutralized by the salt bridge, but careful examination shows that neither charge is on the inner surface of the channel.

Contacts Between Monomers

The , for contrast in this scene: Here, the monomer is from neighboring monomers in the hook assembly^[5] The contacting atoms^[6] are enlarged^[7], and colored by domain. We can now see the following:

Domain 0 Helices: Most neighbor contacts are from D0 helices. A few are from neighboring D0 L-stretches.
Domain 0 L-Stretch : Nearly all of the many neighbor contacts are from D1.
Domain 1: Most neighbor contacts are from D0 L-stretches, with a few also from D0 helices, D1 and D2.
D0 and D1 have most of the contacts with neighbors. D2, D3 and D4 have fewer.
Domain 2: Most contacts are from the D2 neighbors on both sides. There are also some contacts from D3, and a handful from D1 and D4.
Domain 3: Most neighbor contacts are from D2 and D4. There appear to be no D3 to D3 contacts.
Domain 4: Most neighbor contacts are from D3, with a single carbon atom contacting from D2.

Here the ^[5].

C O N S

83 contacting atoms^[6] (38%) are polar (oxygen, nitrogen), while 133 (62%) are apolar (132 carbon, 1 sulfur). The polar interactions include 20 neighbor atoms engaged in salt bridges (D0 helices:4, D0 L-stretch:3, D1:8, D2:2, D3:0, D4:3), and two cation-pi interactions (R58^[3] in the tip of the L-stretch:F133 in D1). Thus 75% of the salt bridges and both cation-pi interactions contact D0 or D1, while only 25% of the salt bridges contact D2, D3 or D4. 109 (82%) of the apolar contacting atoms contact D0 or D1, while only 24 (11%) contact D2, D3 or D4.

Notes and References

↑ Matsunami H, Barker CS, Yoon YH, Wolf M, Samatey FA. Complete structure of the bacterial flagellar hook reveals extensive set of stabilizing interactions. Nat Commun. 2016 Nov 4;7:13425. doi: 10.1038/ncomms13425. PMID:27811912 doi:http://dx.doi.org/10.1038/ncomms13425
↑ Alpha carbons are spacefilled to a radius of 3.5 Å to make domains look solid. The van der Waals radius of carbon is 1.7 Å.
↑ ^3.0 ^3.1 ^3.2 Sequence numbers start with 1 at the second residue in the genomic sequence, since the initial Met is believed to be removed by N-terminal methionine aminopeptidase. The N-terminal genomic sequence (Uniprot FLGE-CAMJE Q0P7Q2) is MMRSLW, while the N-terminal sequence of the mature protein is believed to be MRSLW.
↑ Polar residues are Arg, Asn, Asp, Gln, Glu, His, Lys, Ser, Thr, Tyr. There are no Tyr or Trp lining the channel.
↑ ^5.0 ^5.1 The monomer chain in the above scenes is chain "e". It is one of 21 chains in the 55-chain model that has the maximum number of contacting atoms (216) from other chains. It is also one of 28 chains that have the maximum number of atoms (51) from neighboring chains contacting the L-stretch. The L-stretch is also contacted by 31 atoms from other residues in the same chain (not shown).
↑ ^6.0 ^6.1 "Contacting" is defined as likely hydrogen bonds, plus likely apolar interactions. Likely hydrogen bonds: oxygens or nitrogens within 3.5 Å of oxygens or nitrogens in a neighboring monomer. Apolar interactions: carbons or sulfurs within 4.0 Å of carbons or sulfurs in a neighboring monomer.
↑ Contacting atoms are rendered at radius 3.1 Å. For comparison, the van der Waals radius of carbon is 1.7 Å.: A. Bondi, J. Phys. Chem. 68:441 (1964).

Proteopedia Page Contributors and Editors (what is this?)

Eric Martz

Retrieved from "http://52.214.119.220/wiki/index.php/User:Fadel_A._Samatey/FlgE_II/Complete_Flagellar_Hook_Structure"

@@ Line 107: / Line 107: @@
 Here the <scene name='47/478824/Hkcj_monomer_e10_v2/5'>216 contacting atoms are colored by element</scene><ref name="max" />.
 <center><big>{{Template:ColorKey_Element_C}} {{Template:ColorKey_Element_O}} {{Template:ColorKey_Element_N}} {{Template:ColorKey_Element_S}}</big></center>
-contacting atoms<ref name="contacting" /> (38%) are polar (oxygen, nitrogen), while 133 (62%) are apolar (132 carbon, 1 sulfur). The polar interactions include 20 neighbor atoms engaged in [[salt bridges]] (D0 helices:4, D0 L-stretch:3, D1:8, D2:2, D3:0, D4:3), and two [[cation-pi interactions]] (R58 in the tip of the L-stretch:F133 in D1). Thus 75% of the salt bridges and both cation-pi interactions contact D0 or D1, while only 25% of the salt bridges contact D2, D3 or D4. 109 (82%) of the apolar contacting atoms contact D0 or D1, while only 24 (11%) contact D2, D3 or D4.
+contacting atoms<ref name="contacting" /> (38%) are polar (oxygen, nitrogen), while 133 (62%) are apolar (132 carbon, 1 sulfur). The polar interactions include 20 neighbor atoms engaged in [[salt bridges]] (D0 helices:4, D0 L-stretch:3, D1:8, D2:2, D3:0, D4:3), and two [[cation-pi interactions]] (R58<ref name="seqnum" /> in the tip of the L-stretch:F133 in D1). Thus 75% of the salt bridges and both cation-pi interactions contact D0 or D1, while only 25% of the salt bridges contact D2, D3 or D4. 109 (82%) of the apolar contacting atoms contact D0 or D1, while only 24 (11%) contact D2, D3 or D4.
 </StructureSection>

User:Fadel A. Samatey/FlgE II/Complete Flagellar Hook Structure

From Proteopedia

Revision as of 19:55, 17 April 2017

Molecular Tour

Contents

Domains

L-Stretch "Fingers"

Core and Channel

Contacts Between Monomers

Notes and References

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