The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold

Shuren Wang; Olga Kirillova; Maksymilian Chruszcz; Dominik Gront; Matthew D. Zimmerman; Marcin T. Cymborowski; Igor A. Shumilin; Tatiana Skarina; Elena Gorodichtchenskaia; Alexei Savchenko; Aled M. Edwards; Wladek Minor

doi:10.1002/pro.251

The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold

Shuren Wang, Olga Kirillova, Maksymilian Chruszcz, Dominik Gront, Matthew D. Zimmerman, Marcin T. Cymborowski, Igor A. Shumilin, Tatiana Skarina, Elena Gorodichtchenskaia, Alexei Savchenko, Aled M. Edwards, Wladek Minor

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

The structure of AF2331, a 11-kDa orphan protein of unknown function from Archaeoglobus fulgidus, was solved by Se-Met MAD to 2.4 Å resolution. The structure consists of an α 1 β fold formed by an unusual homodimer, where the two core β-sheets are interdigitated, containing strands alternating from both subunits. The decrease in solvent-accessible surface area upon dimerization is unusually large (3960 Å ²) for a protein of its size. The percentage of the total surface area buried in the interface (41.1%) is one of the largest observed in a nonredundant set of homodimers in the PDB and is above the mean for nearly all other types of homo-oligomers. AF2331 has no sequence homologs, and no structure similar to AF2331 could be found in the PDB using the CE, TM-align, DALI, or SSM packages. The protein has been identified in Pfam 23.0 as the archetype of a new superfamily and is topologically dissimilar to all other proteins with the "3-Layer (BBA) Sandwich" fold in CATH. Therefore, we propose that AF2331 forms a novel α + β fold. AF2331 contains multiple negatively charged surface clusters and is located on the same operon as the basic protein AF2330. We hypothesize that AF2331 and AF2330 may form a charge-stabilized complex in vivo, though the role of the negatively charged surface clusters is not clear. Published by Wiley-Blackwell.

Original language	English
Pages (from-to)	2410-2419
Number of pages	10
Journal	Protein Science
Volume	18
Issue number	11
DOIs	https://doi.org/10.1002/pro.251
State	Published - Nov 2009
Externally published	Yes

Keywords

Archaeoglobus fulgidus
Dimerization
Homo-oligomers
New type of α + β fold
Orphan protein

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10.1002/pro.251

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Wang, S., Kirillova, O., Chruszcz, M., Gront, D., Zimmerman, M. D., Cymborowski, M. T., Shumilin, I. A., Skarina, T., Gorodichtchenskaia, E., Savchenko, A., Edwards, A. M., & Minor, W. (2009). The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold. Protein Science, 18(11), 2410-2419. https://doi.org/10.1002/pro.251

@article{d3480816da44490bacf25f717e7a1a74,

title = "The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold",

abstract = "The structure of AF2331, a 11-kDa orphan protein of unknown function from Archaeoglobus fulgidus, was solved by Se-Met MAD to 2.4 {\AA} resolution. The structure consists of an α 1 β fold formed by an unusual homodimer, where the two core β-sheets are interdigitated, containing strands alternating from both subunits. The decrease in solvent-accessible surface area upon dimerization is unusually large (3960 {\AA} 2) for a protein of its size. The percentage of the total surface area buried in the interface (41.1%) is one of the largest observed in a nonredundant set of homodimers in the PDB and is above the mean for nearly all other types of homo-oligomers. AF2331 has no sequence homologs, and no structure similar to AF2331 could be found in the PDB using the CE, TM-align, DALI, or SSM packages. The protein has been identified in Pfam 23.0 as the archetype of a new superfamily and is topologically dissimilar to all other proteins with the {"}3-Layer (BBA) Sandwich{"} fold in CATH. Therefore, we propose that AF2331 forms a novel α + β fold. AF2331 contains multiple negatively charged surface clusters and is located on the same operon as the basic protein AF2330. We hypothesize that AF2331 and AF2330 may form a charge-stabilized complex in vivo, though the role of the negatively charged surface clusters is not clear. Published by Wiley-Blackwell.",

keywords = "Archaeoglobus fulgidus, Dimerization, Homo-oligomers, New type of α + β fold, Orphan protein",

author = "Shuren Wang and Olga Kirillova and Maksymilian Chruszcz and Dominik Gront and Zimmerman, {Matthew D.} and Cymborowski, {Marcin T.} and Shumilin, {Igor A.} and Tatiana Skarina and Elena Gorodichtchenskaia and Alexei Savchenko and Edwards, {Aled M.} and Wladek Minor",

year = "2009",

month = nov,

doi = "10.1002/pro.251",

language = "English",

volume = "18",

pages = "2410--2419",

journal = "Protein Science",

issn = "0961-8368",

publisher = "Wiley-Blackwell",

number = "11",

}

Wang, S, Kirillova, O, Chruszcz, M, Gront, D, Zimmerman, MD, Cymborowski, MT, Shumilin, IA, Skarina, T, Gorodichtchenskaia, E, Savchenko, A, Edwards, AM & Minor, W 2009, 'The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold', Protein Science, vol. 18, no. 11, pp. 2410-2419. https://doi.org/10.1002/pro.251

TY - JOUR

T1 - The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold

AU - Wang, Shuren

AU - Kirillova, Olga

AU - Chruszcz, Maksymilian

AU - Gront, Dominik

AU - Zimmerman, Matthew D.

AU - Cymborowski, Marcin T.

AU - Shumilin, Igor A.

AU - Skarina, Tatiana

AU - Gorodichtchenskaia, Elena

AU - Savchenko, Alexei

AU - Edwards, Aled M.

AU - Minor, Wladek

PY - 2009/11

Y1 - 2009/11

N2 - The structure of AF2331, a 11-kDa orphan protein of unknown function from Archaeoglobus fulgidus, was solved by Se-Met MAD to 2.4 Å resolution. The structure consists of an α 1 β fold formed by an unusual homodimer, where the two core β-sheets are interdigitated, containing strands alternating from both subunits. The decrease in solvent-accessible surface area upon dimerization is unusually large (3960 Å 2) for a protein of its size. The percentage of the total surface area buried in the interface (41.1%) is one of the largest observed in a nonredundant set of homodimers in the PDB and is above the mean for nearly all other types of homo-oligomers. AF2331 has no sequence homologs, and no structure similar to AF2331 could be found in the PDB using the CE, TM-align, DALI, or SSM packages. The protein has been identified in Pfam 23.0 as the archetype of a new superfamily and is topologically dissimilar to all other proteins with the "3-Layer (BBA) Sandwich" fold in CATH. Therefore, we propose that AF2331 forms a novel α + β fold. AF2331 contains multiple negatively charged surface clusters and is located on the same operon as the basic protein AF2330. We hypothesize that AF2331 and AF2330 may form a charge-stabilized complex in vivo, though the role of the negatively charged surface clusters is not clear. Published by Wiley-Blackwell.

AB - The structure of AF2331, a 11-kDa orphan protein of unknown function from Archaeoglobus fulgidus, was solved by Se-Met MAD to 2.4 Å resolution. The structure consists of an α 1 β fold formed by an unusual homodimer, where the two core β-sheets are interdigitated, containing strands alternating from both subunits. The decrease in solvent-accessible surface area upon dimerization is unusually large (3960 Å 2) for a protein of its size. The percentage of the total surface area buried in the interface (41.1%) is one of the largest observed in a nonredundant set of homodimers in the PDB and is above the mean for nearly all other types of homo-oligomers. AF2331 has no sequence homologs, and no structure similar to AF2331 could be found in the PDB using the CE, TM-align, DALI, or SSM packages. The protein has been identified in Pfam 23.0 as the archetype of a new superfamily and is topologically dissimilar to all other proteins with the "3-Layer (BBA) Sandwich" fold in CATH. Therefore, we propose that AF2331 forms a novel α + β fold. AF2331 contains multiple negatively charged surface clusters and is located on the same operon as the basic protein AF2330. We hypothesize that AF2331 and AF2330 may form a charge-stabilized complex in vivo, though the role of the negatively charged surface clusters is not clear. Published by Wiley-Blackwell.

KW - Archaeoglobus fulgidus

KW - Dimerization

KW - Homo-oligomers

KW - New type of α + β fold

KW - Orphan protein

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DO - 10.1002/pro.251

M3 - Article

C2 - 19768810

AN - SCOPUS:70350519377

SN - 0961-8368

VL - 18

SP - 2410

EP - 2419

JO - Protein Science

JF - Protein Science

IS - 11

ER -

The crystal structure of the AF2331 protein from Archaeoglobus fulgidus DSM 4304 forms an unusual interdigitated dimer with a new type of α + β fold

Abstract

Keywords

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