Elongation factor 4 (EF-4) is an

elongation factor Elongation factors are a set of proteins that function at the ribosome, during protein synthesis, to facilitate translational elongation from the formation of the first to the last peptide bond of a growing polypeptide. Most common elongation f ...

that is thought to back- translocate on the ribosome during the translation of RNA to proteins. It is found near-universally in

bacteria Bacteria (; singular: bacterium) are ubiquitous, mostly free-living organisms often consisting of one Cell (biology), biological cell. They constitute a large domain (biology), domain of prokaryotic microorganisms. Typically a few micrometr ...

and in

eukaryotic Eukaryotes () are organisms whose Cell (biology), cells have a cell nucleus, nucleus. All animals, plants, fungi, and many unicellular organisms, are Eukaryotes. They belong to the group of organisms Eukaryota or Eukarya, which is one of the ...

endosymbiotic organelles including the mitochondria and the plastid. Responsible for proofreading during protein synthesis, EF-4 is a recent addition to the nomenclature of bacterial elongation factors. Prior to its recognition as an elongation factor, EF-4 was known as leader peptidase A (LepA), as it is the first cistron on the

operon In genetics, an operon is a functioning unit of DNA containing a cluster of genes under the control of a single promoter. The genes are transcribed together into an mRNA strand and either translated together in the cytoplasm, or undergo splic ...

carrying the bacterial leader peptidase. In eukaryotes it is traditionally called GUF1 (GTPase of Unknown Function 1). It has the preliminary EC number 3.6.5.n1.

Evolutionary background

LepA has a highly conserved sequence. LepA

ortholog Sequence homology is the biological homology between DNA, RNA, or protein sequences, defined in terms of shared ancestry in the evolutionary history of life. Two segments of DNA can have shared ancestry because of three phenomena: either a s ...

s have been found in

and almost all eukaryotes. The conservation in LepA has been shown to cover the entire protein. More specifically, the

amino acid Amino acids are organic compounds that contain both amino and carboxylic acid functional groups. Although hundreds of amino acids exist in nature, by far the most important are the alpha-amino acids, which comprise proteins. Only 22 alpha a ...

identity of LepA among bacterial orthologs ranges from 55%-68%. Two forms of LepA have been observed; one form of LepA branches with mitochondrial LepA sequences, while the second form branches with cyanobacterial orthologs. These findings demonstrate that LepA is significant for bacteria, mitochondria, and

plastids The plastid (Greek: πλαστός; plastós: formed, molded – plural plastids) is a membrane-bound organelle found in the cells of plants, algae, and some other eukaryotic organisms. They are considered to be intracellular endosymbiotic cyanobac ...

. LepA is absent from archaea.

Structure

The gene encoding LepA is known to be the first

cistron A cistron is an alternative term for "gene". The word cistron is used to emphasize that genes exhibit a specific behavior in a cis-trans test; distinct positions (or loci) within a genome are cistronic. History The words ''cistron'' and ''gene ...

as part of a bicistron

. LepA is a polypeptide of 599 amino acids with a

molecular weight A molecule is a group of two or more atoms held together by attractive forces known as chemical bonds; depending on context, the term may or may not include ions which satisfy this criterion. In quantum physics, organic chemistry, and bioch ...

of 67 kDa. The amino acid sequence of LepA indicates that it is a

G protein G proteins, also known as guanine nucleotide-binding proteins, are a family of proteins that act as molecular switches inside cells, and are involved in transmitting signals from a variety of stimuli outside a cell to its interior. Their a ...

, which consists of five known domains. The first four domains are strongly related to domains I, II, III, and V of primary elongation factor

EF-G EF-G (elongation factor G, historically known as translocase) is a prokaryotic elongation factor involved in protein translation. As a GTPase, EF-G catalyzes the movement (translocation) of transfer RNA (tRNA) and messenger RNA (mRNA) through t ...

. However, the last domain of LepA is unique. This specific domain resides on the C-terminal end of the protein structure. This arrangement of LepA has been observed in the mitochondria of yeast cells to

human cell There are many different types of cells in the human body. Cells derived primarily from endoderm Exocrine secretory epithelial cells * Brunner's gland cell in duodenum (enzymes and alkaline mucus) *Insulated goblet cell of respiratory and ...

Function

LepA is suspected to improve the fidelity of translation by recognizing a ribosome with mistranslocated

tRNA Transfer RNA (abbreviated tRNA and formerly referred to as sRNA, for soluble RNA) is an adaptor molecule composed of RNA, typically 76 to 90 nucleotides in length (in eukaryotes), that serves as the physical link between the mRNA and the amino ...

and consequently inducing a back-translocation. By back-translocating the already post-transcriptionally modified ribosome, the EF-G factor capable of secondary translocation. Back-translocation by LepA occurs at a similar rate as an EF-G-dependent translocation. As mentioned above, EF-G's structure is highly analogous to LepA's structure; LepA's function is thus similarly analogous to EF-G's function. However, Domain IV of EF-G has been shown through several studies to occupy the decoding sequence of the A site after the tRNAs have been translocated from A and P sites to the P and E sites. Thus, domain IV of EF-G prevents back-movement of the tRNA. Despite the structural similarities between LepA and EF-G, LepA lacks this Domain IV. Thus LepA reduces the activation barrier between Pre and POST states in a similar way to EF-G but is, at the same time, able to catalyze a back-translocation rather that a canonical translocation.

Activity

LepA exhibits uncoupled

GTPase GTPases are a large family of hydrolase enzymes that bind to the nucleotide guanosine triphosphate (GTP) and hydrolyze it to guanosine diphosphate (GDP). The GTP binding and hydrolysis takes place in the highly conserved P-loop "G domain", a pro ...

activity. This activity is stimulated by the ribosome to the same extent as the activity of EF-G, which is known to have the strongest ribosome-dependent GTPase activity among all characterized G proteins involved in translation. Conversely, uncoupled GTPase activity occurs when the ribosome stimulation of GTP cleavage is not directly dependent on protein synthesis. In the presence of GTP, LepA works catalytically. On the other hand, in the presence of the nonhydrolysable GTP – GDPNP – the LepA action becomes stoichiometric, saturating at about one molecule per 70S ribosomes. This data demonstrates that GTP cleavage is required for dissociation of LepA from the ribosome, which is demonstrative of a typical G protein. At low concentrations of LepA (less than or equal to 3 molecules per 70S ribosome), LepA specifically recognizes incorrectly translocated ribosomes, back-translocates them, and thus allows EF-G to have a second chance to catalyze the correct translocation reaction. At high concentrations (about 1 molecule per 70S ribosome), LepA loses its specificity and back-translocates every POST ribosome. This places the translational machinery in a nonreproductive mode. This explains the toxicity of LepA when it is found in a cell in high concentrations. Hence, at low concentrations LepA significantly improves the yield and activity of synthesized proteins; however, at high concentrations LepA is toxic to cells. Additionally, LepA has an effect on peptide bond formation. Through various studies in which functional derivatives of ribosomes were mixed with

puromycin Puromycin is an antibiotic protein synthesis inhibitor which causes premature chain termination during translation. Inhibition of translation Puromycin is an aminonucleoside antibiotic, derived from the '' Streptomyces alboniger'' bacterium ...

(an analog of the 3' end of an aa-tRNA) it was determined that adding LepA to a post transcriptionally modified ribosome prevents dipeptide formation as it inhibits the binding of aa-tRNA to the A site.

Experimental data

There have been various experiments elucidating the structure and function of LepA. One notable study is termed the "toeprinting experiment": this experiment helped to determine LepA's ability to back-translocate. In this case, a primer was extended via reverse transcription along mRNA which was ribosome-bound. The primers from modified mRNA strands from various ribosomes were extended with and without LepA. An assay was then conducted with both PRE and POST states, and cleavage studies revealed enhanced positional cleavage in the POST state as opposed to the PRE state. Since the POST state had been in the presence of LepA (plus GTP), it was determined that the strong signal characteristic of the POST state was the result of LepA which then brought the signal down to the level of the PRE state. Such a study demonstrated that that ribosome, upon binding to the LepA-GTP complex assumes the PRE state configuration.

References

Investigation into the biological function of the highly conserved GTPase LepA
PhD thesis.

External links

* {{Genetic translation Protein biosynthesis