Abstract
Chloroflexus aurantiacus is a thermophilic bacterium that produces a multitude of proteins within its genome. Bioinformatics strategies can facilitate comprehending this organism through functional and structural interpretation assessments. This study is aimed at allocating the structure and function through an in silico approach required for bacterial protein biosynthesis. This in silico viewpoint provides copious properties, including the physicochemical properties, subcellular location, three-dimensional structure, protein-protein interactions, and functional elucidation of the protein (WP_012256288.1). The STRING program is utilized for the explication of protein-protein interactions. The in silico investigation documented the protein's hydrophilic nature with predominantly alpha (α) helices in its secondary structure. The tertiary-structure model of the protein has been shown to exhibit reasonably high consistency based on various quality assessment methods. The functional interpretation suggested that the protein can act as a translation initiation factor, a protein required for translation and protein biosynthesis. Protein-protein interactions also demonstrated high credence that the protein interconnected with 30S ribosomal subunit involved in protein synthesis. This study bioinformatically examined that the protein (WP_012256288.1) is affiliated in protein biosynthesis as a translation initiation factor IF-3 of C. aurantiacus.
Highlights
In specific, Chloroflexus aurantiacus is a Gram-negative organism possessing exceptional characteristics, such as anoxygenic, filamentous, thermophilic, phototrophic, and gliding properties [1,2,3]
The amino acid sequence of the protein (WP_012256288.1) of C. aurantiacus was gathered from the NCBI database
The protein is consist of 275 amino acids where Arg (34) was the most abundant amino acid followed by Ala (33), Asp (33), Glu (29), Leu (20), Val (17), Lys (14), Gln (14), Pro (13), Ile (11), Thr (10), Gly (9), Ser (9), Asn (8), Phe (8), Met (7), Tyr (3), His (2), and Cys (1)
Summary
Chloroflexus aurantiacus is a Gram-negative organism possessing exceptional characteristics, such as anoxygenic, filamentous, thermophilic, phototrophic, and gliding properties [1,2,3]. Keeping out other phototrophic anoxygenic, Chloroflexus aurantiacus sprout effectively in environments with a moderate temperature of 50–60°C [4, 5]. They can mostly acclimatize in various environmental circumstances, including wetlands, river water, hot springs, and sediments containing elevated-sulfide conditions [6, 7]. 275 aa Translation initiation factor IF-3 [Chloroflexus aurantiacus]. RefSeq Chloroflexus aurantiacus >WP_012256288.1 translation initiation factor IF-3 [Chloroflexus aurantiacus] MPRLSPVARRRSRAIR DRFRINNRIRAREVRLID ENGTQVGIVPLREALAMAEERGFDLV EVAPNAVPPVCRLLDYGKFRYEQSKKEREARRN QKQSELKQIRLMPKTDDHDVAVKANQARRFLLAG DKVKFNLRFRGREMAHPEIGRQMLDQIAEQLSDI AVIEQKPLMEGRVLSMLLAPTAKVLKAAQ QAQKAAAQRTTTAESAKPATSAAST PATAEPADEEEEELIDDGDVVEEDEDDDDT FVADYDDEDDDFEDDDDDDEDDERNRRRRR.
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