. 2024 May 18;206(6):267.

doi: 10.1007/s00203-024-03992-8.

Exploring the evolutionary and pathogenic role of Acinetobacter baumannii biofilm-associated protein (Bap) through in silico structural modeling

Kirti Upmanyu^{1

2}, Rakesh Kumar¹, Qazi Mohd Rizwanul Haque², Ruchi Singh³

Affiliations

¹ ICMR-National Institute of Pathology, Safdarjung Hospital Campus, New Delhi, 110029, India.
² Department of Biosciences, Jamia Millia Islamia, New Delhi, India.
³ ICMR-National Institute of Pathology, Safdarjung Hospital Campus, New Delhi, 110029, India. ruchisp@gmail.com.

PMID: 38762620
DOI: 10.1007/s00203-024-03992-8

Exploring the evolutionary and pathogenic role of Acinetobacter baumannii biofilm-associated protein (Bap) through in silico structural modeling

Kirti Upmanyu et al. Arch Microbiol. 2024.

. 2024 May 18;206(6):267.

doi: 10.1007/s00203-024-03992-8.

Authors

Kirti Upmanyu^{1

2}, Rakesh Kumar¹, Qazi Mohd Rizwanul Haque², Ruchi Singh³

Affiliations

¹ ICMR-National Institute of Pathology, Safdarjung Hospital Campus, New Delhi, 110029, India.
² Department of Biosciences, Jamia Millia Islamia, New Delhi, India.
³ ICMR-National Institute of Pathology, Safdarjung Hospital Campus, New Delhi, 110029, India. ruchisp@gmail.com.

PMID: 38762620
DOI: 10.1007/s00203-024-03992-8

Abstract

Acinetobacter species encode for extracellularly secreted Biofilm-associated protein (Bap), a multi-domain protein with variable molecular weights reaching several hundred kilodaltons. Bap is crucial for the development of multi-dimensional structures of mature biofilms. In our investigation, we analyzed 7338 sequences of A. baumannii from the NCBI database and found that Bap or Bap-like protein (BLP) was present in 6422 (87.52%) isolates. Further classification revealed that 12.12% carried Type-1 Bap, 68.44% had Type-2, 6.91% had Type-3, 0.05% had Type-6 or SDF-Type, and 12.51% lacked Bap or BLP. The majority of isolates with Type-1, Type-2, and Type-3 Bap belonged to ST1, ST2, and ST25, respectively. Phylogenetic analysis suggested that Type-1 Bap is the most ancient, while Type-3 and SDF-Type have evolved recently. Studying the interaction of predicted Bap structures with human CEACAM-1 and PIgR showed that Bap with its BIg13 and BIg6 domains interact with the N-terminal domain of CEACAM-1, involving Arg⁴³ and Glu⁴⁰, involved in CEACAM-1 dimerization. Also, we found that recently evolved Type-3 and SDF-Type Bap showed greater interaction with CEACAM-1 and PIgR. It can be asserted that the evolution of Bap has conferred enhanced virulence characteristics to A. baumannii with increased interaction with CEACAM-1 and PIgR. Using in silico approaches, this study explores the evolutionary, physicochemical, and structural features of A. baumannii Bap and unravels its crucial role in mediating interaction with human CEACAM-1 and PIgR through detailed structure modelling. These findings advance our understanding of A. baumannii Bap and highlight its role in pathogenesis.

Keywords: A. Baumannii; Biofilm; Biofilm associated protein (Bap); CEACAM-1; Host pathogen interaction; PIgR; Pathogenesis; Virulence.

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Genomic insights into biofilm-associated virulence in extensively drug-resistant Acinetobacter baumannii.
Wiradiputra MRD, Khuntayaporn P, Thirapanmethee K, Wanapaisan P, Chomnawang MT. Wiradiputra MRD, et al. Curr Res Microb Sci. 2025 Jul 1;9:100434. doi: 10.1016/j.crmicr.2025.100434. eCollection 2025. Curr Res Microb Sci. 2025. PMID: 40686839 Free PMC article.

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Exploring the evolutionary and pathogenic role of Acinetobacter baumannii biofilm-associated protein (Bap) through in silico structural modeling

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Exploring the evolutionary and pathogenic role of Acinetobacter baumannii biofilm-associated protein (Bap) through in silico structural modeling

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