Julian Brantl scite author profile

Julian Brantl

3Publications

16Citation Statements Received

83Citation Statements Given

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University of Freiburg

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Evolution of Archaellum Rotation Involved Invention of a Stator Complex by Duplicating and Modifying a Core Component

et al. 2021

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Novelty in biology can arise from opportunistic repurposing of nascent characteristics of existing features. Understanding how this process happens at the molecular scale, however, suffers from a lack of case studies. The evolutionary emergence of rotary motors is a particularly clear example of evolution of a new function. The simplest of rotary motors is the archaellum, a molecular motor that spins a helical propeller for archaeal motility analogous to the bacterial flagellum. Curiously, emergence of archaellar rotation may have pivoted on the simple duplication and repurposing of a pre-existing component to produce a stator complex that anchors to the cell superstructure to enable productive rotation of the rotor component. This putative stator complex is composed of ArlF and ArlG, gene duplications of the filament component ArlB, providing an opportunity to study how gene duplication and neofunctionalization contributed to the radical innovation of rotary function. Toward understanding how this happened, we used electron cryomicroscopy to determine the structure of isolated ArlG filaments, the major component of the stator complex. Using a hybrid modeling approach incorporating structure prediction and validation, we show that ArlG filaments are open helices distinct to the closed helical filaments of ArlB. Curiously, further analysis reveals that ArlG retains a subset of the inter-protomer interactions of homologous ArlB, resulting in a superficially different assembly that nevertheless reflects the common ancestry of the two structures. This relatively simple mechanism to change quaternary structure was likely associated with the evolutionary neofunctionalization of the archaellar stator complex, and we speculate that the relative deformable elasticity of an open helix may facilitate elastic energy storage during the transmission of the discrete bursts of energy released by ATP hydrolysis to continuous archaellar rotation, allowing the inherent properties of a duplicated ArlB to be co-opted to fulfill a new role. Furthermore, agreement of diverse experimental evidence in our work supports recent claims to the power of new structure prediction techniques.

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Mixed Mn/In chalcogenides A3(MnIIInIII)
Langenmaier
¹
,
Brantl
²
,
Röhr
³

2021
Journal of Solid State Chemistry
4
1
4
0
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New sodium-rich mixed Mn/In chalcogenido metallates Na₁₂MnIn₂ Q ₁₀ (Q = S, Se)

Langenmaier

Brantl

Röhr

2020

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The sodium-rich sulfido and selenido metallates Na12MnIn2Q10 (Q = S/Se) were synthesized in pure phase from melts composed of stoichiometric quantities of the manganese monochalcogenides MnQ, elemental indium and the chalcogens together with either Na2S (Q = S) or elemental sodium (Q = Se) as starting material. The samples were heated up to maximum temperatures of 1000/900 °C under an argon atmosphere; crystallization was achieved by slow cooling rates of 10 K h−1. The two isotypic compounds (monoclinic, space group P21/m, a = 678.26(2)/698.85(10), b = 2202.77(7)/2298.7(3), c = 766.39(3)/800.59(13) pm, β = 90.232(2)/90.147(5)°, Z = 2, R1 = 0.0516/0.0575) crystallize in a new structure type. According to the division of the formula as Na12[InQ4][MnInQ6] the salts contain ortho indate anions [InIIIQ4]5− besides hetero-bimetallic dimers [MnIIInIIIQ6]7−, which consist of two edge-sharing [MQ4] tetrahedra. The seven crystallographically different sodium cations exhibit an either tetrahedral or octahedral coordination by the chalcogen atoms. Thus, the overall structure of the salt is best described by a hexagonal close packing of the sulfide/selenide anions, in which the octahedral voids of every second interlayer section are fully occupied by the (overall 5/f.u.) Na+ positions with CN = 6. In the other half of the interlayer sheets, all tetrahedral voids (overall 10/f.u.) are occupied by the seven CN = 4 Na+ cations, one In3+ of the ortho anion and the two Mn2+/In3+ cations (which statistically occupy one crystallographic site). This structure relation is also verified by a Bärnighausen group-subgroup tree connecting the h.c.p. (Mg type) aristotype (with its tetrahedral and octahedral voids) by an overall index of 60 with the structure of the two title compounds.

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Julian Brantl

Evolution of Archaellum Rotation Involved Invention of a Stator Complex by Duplicating and Modifying a Core Component

Mixed Mn/In chalcogenides A3(MnIIInIII)
Langenmaier
¹
,
Brantl
²
,
Röhr
³

2021
Journal of Solid State Chemistry
4
1
4
0
View full text Add to dashboard Cite

New sodium-rich mixed Mn/In chalcogenido metallates Na₁₂MnIn₂ Q ₁₀ (Q = S, Se)

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Julian Brantl

Evolution of Archaellum Rotation Involved Invention of a Stator Complex by Duplicating and Modifying a Core Component

Mixed Mn/In chalcogenides A3(MnIIInIII)Langenmaier1, Brantl2, Röhr3 2021Journal of Solid State Chemistry4140View full textAdd to dashboardCite

New sodium-rich mixed Mn/In chalcogenido metallates Na 12 MnIn 2 Q 10 (Q = S, Se)

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Mixed Mn/In chalcogenides A3(MnIIInIII)
Langenmaier
¹
,
Brantl
²
,
Röhr
³

2021
Journal of Solid State Chemistry
4
1
4
0
View full text Add to dashboard Cite

New sodium-rich mixed Mn/In chalcogenido metallates Na₁₂MnIn₂ Q ₁₀ (Q = S, Se)