The holin LLH family (TC# 1.E.26) is a group of transporters belonging to the Holin superfamily VI. [1] The Holin LLH family is found in Bacillota and phage of Bacillota as well as other bacteria. Members are fairly large, between 100 and 160 amino acyl residues in length, and have an N-terminal transmembrane segment (TMS). Some proteins, such as putative holin of Fusobacterium varium (TC# 1.E.26.7.2), may exhibit 2 TMSs. A representative list of proteins belonging to the Holin LLH family can be found in the Transporter Classification Database. [2] [3]
Holins are a diverse group of small proteins produced by dsDNA bacteriophages in order to trigger and control the degradation of the host's cell wall at the end of the lytic cycle. Holins form pores in the host's cell membrane, allowing lysins to reach and degrade peptidoglycan, a component of bacterial cell walls. Holins have been shown to regulate the timing of lysis with great precision. Over 50 unrelated gene families encode holins, making them the most diverse group of proteins with common function. Together with lysins, holins are being studied for their potential use as antibacterial agents.
The Holin Superfamily I is a superfamily of integral membrane transport proteins. It is one of the seven different holin superfamilies in total. In general, these proteins are thought to play a role in regulated cell death, although functionality varies between families and individual members.
The Phi11 Holin Family constitutes the Holin Superfamily I.
The Phage 21 S Family is a member of the Holin Superfamily II.
The Pseudomonas phage F116 holin is a non-characterized holin homologous to one in Neisseria gonorrheae that has been characterized. This protein is the prototype of the Pseudomonasphage F116 holin family, which is a member of the Holin Superfamily II. Bioinformatic analysis of the genome sequence of N. gonorrhoeae revealed the presence of nine probable prophage islands. The genomic sequence of FA1090 identified five genomic regions that are related to dsDNA lysogenic phage. The DNA sequences from NgoPhi1, NgoPhi2 and NgoPhi3 contained regions of identity. A region of NgoPhi2 showed high similarity with the Pseudomonas aeruginosa generalized transducing phage F116. NgoPhi1 and NgoPhi2 encode functionally active phages. The holin gene of NgoPhi1, when expressed in E. coli, could substitute for the phage lambda S gene.
The Lambda Holin S Family is a group of integral membrane transporter proteins belonging to the Holin Superfamily III. Members of this family generally consist of the characteristic three transmembrane segments (TMSs) and are of 110 amino acyl residues (aas) in length, on average. A representative list of members belonging to this family can be found in the Transporter Classification Database.
The Holin superfamily V is a superfamily of integral membrane transport proteins. It is one of the seven different holin superfamilies in total. In general, these proteins are thought to play a role in regulated cell death, although functionality varies between families and individual members. The Holin superfamily V includes the TC families:
The Listeria Phage A118 Holin (Hol118) Family is a group of transporters belonging to the Holin Superfamily V. A representative list of proteins belonging to the Hol118 family can be found in the Transporter Classification Database.
The Holin Hol44 (Hol44) Family is a group of transporters belonging to the Holin Superfamily V. A representative list of proteins belonging to the Hol44 family from caudovirales and Bacillota can be found in the Transporter Classification Database.
The T4 Holin Family is a group of putative pore-forming proteins that does not belong to one of the seven holin superfamilies. T-even phage such as T4 use a holin-endolysin system for host cell lysis. Although the endolysin of phage T4 encoded by the e gene was identified in 1961, the holin was not characterized until 2001. A representative list of proteins belonging to the T4 holin family can be found in the Transporter Classification Database.
The Mycobacterial 1 TMS Phage Holin Family was identified and recognized by Catalao et al. (2012). Members of this family are found in mycobacterial phage, exhibit a single transmembrane segment (TMSs), and are about 75 to 95 amino acyl residues in length. Although annotated as holins, members of this family are not yet functionally characterized. A representative list of proteins belonging to this family can be found in the Transporter Classification Database.
The Phage T1 Holin Family is represented in enterobacterial phages T1, RTP and F20, Klebsiella phage KP36, and Escherichia phage ADB-2. All of these possess a putative holin that share a high level of identity. Additionally, Gp9 of E. coli phage phiE49 is similar in sequence. These proteins are short, 55 to 71 amino acyl residues (aas) in length, and exhibit a single transmembrane segment (TMS). A representative list of proteins belonging to the T1 Holin family can be found in the Transporter Classification Database.
The Staphylococcusphage P68 Putative Holin Family consists of a single putative holin from Staphylococcus aureus phage P68 that is 92 amino acyl residues (aas) in length and exhibits 2 transmembrane segments (TMSs). While annotated as a holin, this protein has not been functionally characterized.[2]
The Mycobacterial Phage PBI1 Gp36 Holin Family consists of a single protein, Gp36 of Mycobacterial phage PBI1 identified by Castalao et al. (2012). Gp36 is 116 amino acyl residues (aas) in length and exhibits 2 transmembrane segments (TMSs). While annotated as a holin, this protein has not been functionally characterized.
The Putative 3-4 TMS Transglycosylase-associated Holin Family is believed to be a group of holins that does not belong to one of the seven holin superfamilies. Homologues include thousands of diverse phage and bacterial proteins between 80 and 140 amino acyl residues (aas) in length that exhibit 3 to 4 transmembrane segments (TMSs). These proteins are holin-like in their size and topology and are designated 'Transglycosylase-associated', 'Putative holin', 'Phage-like transmembrane protein', 'YeaQ protein', etc. in the NCBI protein database. As of early 2016, they remain functionally uncharacterized. They derive from a wide range of bacterial and archaeal phyla including both Gram-negative and Gram-positive bacteria. These proteins are related to the RDD family in the conserved domain database. A representative list of proteins belonging to the T-A Hol family can be found in the Transporter Classification Database.
The XanthomonasPhage Holin (XanPHol) Family consists of a single protein of 64 amino acyl residues (aas) in length with 2 transmembrane segments (TMSs). It is a putative uncharacterized protein from Xanthomonas phage Xp15. This protein corresponds to sequence 68 from patent US 7919601. As of March 2016, this protein does not show appreciable sequence similarity to any other proteins in the NCBI protein database.
The Putative Treponema 4 TMS Holin (Tre4Hol) Family consists of several proteins from Treponema species. They range in size from 100 to 110 amino acyl residues (aas) in length and exhibit 4 transmembrane segments (TMSs). A fragment has been sequenced from Treponema phage Phi td1 (D2ECI8) and was designated a putative holin.
The ErwiniaPhage Phi-Ea1h Holin (EPPE-Hol) Family consists of a single protein, holin of Erwinia Phage Phi-Ea1h, which is 119 amino acyl residues in length and exhibits a single transmembrane segment (TMS). Out of three open reading frames sequenced from bacteriophage Phi-Ea1h, the second ORF encodes this holin. Kim and Geider found that no signal sequence was observed at the N-terminus of the enzyme and suggested that the holin possibly facilities the export of an which may export a lysozyme and EPS depolymerase that carries out extracellular polysaccharide (EPS)-degrading activity.
The Prophage Hp1 Hol (Hp1Hol) Family consists of a single putative holin of 69 amino acyl residues in length, exhibiting what appears to be a single transmembrane segment (TMS). It is derived from the Bacillota, Clostridium hathewayi DSM 13479. This protein is functionally uncharacterized and does not appear to be homologous to other holins. It does, however, show 31% identity to a heavy metal transporter from Dethiosulfovibrio peptidovorans.
The Putative Bacterial Archaeal Holin(BAH) Family consists of several uncharacterized proteins. However, these proteins were retrieved when functionally characterized holins from the T-A Hol family were BLASTED against the NCBI database, and thus may be related to the T-A Hol family. Most BAH proteins are between 125 and 140 amino acyl residues (aas) in length and exhibit 4 transmembrane segments (TMSs), although at least one putative holin is almost 260 aas long. A representative list of proteins belonging to the BAH family can be found in the Transporter Classification Database.
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