Listeria monocytogenes non-coding RNA
Encyclopedia
Listeria monocytogenes is a gram positive bacterium and causes many food-borne infections such as Listeriosis. This bacteria is ubiquitous in the environment where it can act as either a saprophyte when free living within the environment or as a pathogen
when entering a host organism. Many non-coding RNAs have been identified within the bacteria genome where several of these have been classified as novel non-coding RNAs and may contribute to pathogenesis
.
Tiling arrays
and mutagenesis
identified many non-coding RNAs within the L. monocytogenes genome
and the location of these non-coding RNAs within the bacterial genome was confirmed by RACE (rapid amplification of cDNA ends) analysis. These studies showed that the expression of many non-coding RNAs was dependent on the environment and that several of these non-coding RNAs act as as cis-regulatory elements
. Comparisons between previously characterized non-coding RNAs and those present in the L. monocyotogenes genome identified 50 novel non-coding RNAs in L. monocyotogenes. An additional comparative study between the pathogenic L. monocytogenes strain and the non pathogenic L. innocua strain identified several non-coding RNAs that are only present within L. monocytogenes which suggests that these ncRNAs may have a role in pathogenesis
. The tables below summarizes the location, flanking gene
s and also the characteristics of the novel small non-coding RNAs identified and the previously characterized non-coding RNAs present in L. monocytogenes
Novel Non-coding RNAs
aArrows indicate the sense of the gene on the genome. Bold arrows indicate gene absent from L. innocua.
Listeria monocytogenes EGD-e strain was used in these studies EMBL accession AL591824.1
Characterised non-coding RNAs
Pathogen
A pathogen gignomai "I give birth to") or infectious agent — colloquially, a germ — is a microbe or microorganism such as a virus, bacterium, prion, or fungus that causes disease in its animal or plant host...
when entering a host organism. Many non-coding RNAs have been identified within the bacteria genome where several of these have been classified as novel non-coding RNAs and may contribute to pathogenesis
Pathogenesis
The pathogenesis of a disease is the mechanism by which the disease is caused. The term can also be used to describe the origin and development of the disease and whether it is acute, chronic or recurrent...
.
Tiling arrays
Tiling array
Tiling Arrays are a subtype of microarray chips. Like traditional microarrays, they function by hybridizing labeled DNA or RNA target molecules to probes fixed onto a solid surface. Tiling arrays differ from traditional microarrays in the nature of the probes...
and mutagenesis
Mutagenesis
Mutagenesis is a process by which the genetic information of an organism is changed in a stable manner, resulting in a mutation. It may occur spontaneously in nature, or as a result of exposure to mutagens. It can also be achieved experimentally using laboratory procedures...
identified many non-coding RNAs within the L. monocytogenes genome
Genome
In modern molecular biology and genetics, the genome is the entirety of an organism's hereditary information. It is encoded either in DNA or, for many types of virus, in RNA. The genome includes both the genes and the non-coding sequences of the DNA/RNA....
and the location of these non-coding RNAs within the bacterial genome was confirmed by RACE (rapid amplification of cDNA ends) analysis. These studies showed that the expression of many non-coding RNAs was dependent on the environment and that several of these non-coding RNAs act as as cis-regulatory elements
Cis-regulatory element
A cis-regulatory element or cis-element is a region of DNA or RNA that regulates the expression of genes located on that same molecule of DNA . This term is constructed from the Latin word cis, which means "on the same side as". These cis-regulatory elements are often binding sites for one or...
. Comparisons between previously characterized non-coding RNAs and those present in the L. monocyotogenes genome identified 50 novel non-coding RNAs in L. monocyotogenes. An additional comparative study between the pathogenic L. monocytogenes strain and the non pathogenic L. innocua strain identified several non-coding RNAs that are only present within L. monocytogenes which suggests that these ncRNAs may have a role in pathogenesis
Pathogenesis
The pathogenesis of a disease is the mechanism by which the disease is caused. The term can also be used to describe the origin and development of the disease and whether it is acute, chronic or recurrent...
. The tables below summarizes the location, flanking gene
Gene
A gene is a molecular unit of heredity of a living organism. It is a name given to some stretches of DNA and RNA that code for a type of protein or for an RNA chain that has a function in the organism. Living beings depend on genes, as they specify all proteins and functional RNA chains...
s and also the characteristics of the novel small non-coding RNAs identified and the previously characterized non-coding RNAs present in L. monocytogenes
Novel Non-coding RNAs
| ID | Start | Stop | Size | 5' flanking gene | sense of the gene on the genome | a | 3' flanking gene | Characteristic | Rfam | |
|---|---|---|---|---|---|---|---|---|---|---|
| rli22 | 31997 | 32107 | 110 | lmo0028 | -> | -> | -> | lmo0029 | sRNA | |
| rli23 | 172171 | 172268 | 97 | lmo0172 | <- | -> | sRNA Antisense to lmo0172 transposase Homolog of rli25 and rli35. | |||
| rli24 | 271029 | 271186 | 157 | lmo0256 | -> | -> | -> | lmo0257 | sRNA | |
| rli25 | 357618 | 357516 | 102 | lmo0330 | -> | <- | sRNA Antisense to lmo0330: transposase. Homolog of rli23 and rli35 | |||
| rli26 | 388707 | 388520 | 187 | lmo0360 | -> | <- | <- | lmo0361 | sRNA | |
| rli27 | 434831 | 434929 | 98 | lmo0411 | <- | -> | <- | lmo0412 | sRNA | |
| rli28 | 507394 | 507206 | 188 | lmo0470 | -> | <- | -> | lmo0471 | sRNA Homolog of rli50 | |
| rli29 | 507643 | 507450 | 193 | lmo0470 | -> | <- | -> | lmo0471 | sRNA Antisense to the 5'UTR of lmo0471 | |
| rli30 | 540785 | 540670 | 115 | lmo0506 | -> | <- | sRNA Antisense to lmo0506 | |||
| rli31 | 597812 | 597926 | 114 | lmo0558 | <- | -> | -> | lmo0559 | sRNA | |
| rli32 | 600750 | 600604 | 147 | lmo0560 | <- | <- | <- | lmo0561 | sRNA | |
| rli33 | 708326 | 708860 | 534 | lmo0671 | -> | -> | -> | lmo0672 | sRNA | |
| rli34 | 803031 | 802948 | 83 | lmo0777 | -> | <- | -> | lmo0778 | sRNA | |
| rli35 | 855495 | 855393 | 102 | lmo0828 | -> | <- | sRNA Antisense to lmo0828: transposase. Homolog of rli23 and rli25 | |||
| rli36 | 859527 | 859444 | 83 | nifJ | -> | <- | <- | fbp | sRNA | |
| rli37 | 907576 | 907832 | 256 | lmo0866 | -> | -> | -> | lmo0867 | ORF ORF of 58aa. RBS region: TGATACGGGAGTGTGGTGCTAGTTATG | |
| rli38 | 1152549 | 1152917 | 369 | lmo1115 | <- | -> | -> | lmo1116 | sRNA role in virulence | |
| rli39 | 1179807 | 1179993 | 187 | lmo1149 | -> | -> | <- | lmo1150 | sRNA Annotated as a cobalamin riboswitch in Rfam | |
| rli40 | 1275810 | 1275547 | 264 | lmo1251 | -> | <- | <- | lmo1252 | ORF ORF of 64 aa. RBS region: AGTGAGGCGTCCTTATG | |
| rli41 | 1277207 | 1276713 | 495 | lmo1252 | <- | <- | -> | lmo1253 | Two ORFs ORF of 45 aa. RBS region: AGAGGAGGTATTTTCTATG ORF of 35 aa. RBS region:AAGGAGGAAAACAAATTG | |
| rli42 | 1399617 | 1399447 | 171 | lmo1374 | -> | <- | -> | lmo1375 | sRNA | |
| rli43 | 1861630 | 1861377 | 253 | inlC | <- | <- | <- | rplS | ORF ORF of 35aa. RBS region: AGAGTGAGGTGTAATATG | |
| rli44 | 2039087 | 2039375 | 289 | lmo1964 | <- | -> | <- | lmo1965 | ORF ORF of 28aa. RBS region: GGAAAGGATAACCCATG | |
| rli45 | 2154775 | 2154852 | 77 | lmo2074 | -> | -> | <- | lmo2075 | sRNA Antisense to rli46 | |
| rli46 | 2155058 | 2154765 | 294 | lmo2074 | -> | <- | <- | lmo2075 | sRNA Antisense to rli45 | |
| rli47 | 2226024 | 2226532 | 508 | lmo2141 | -> | -> | <- | lmo2142 | sRNA | |
| rli48 | 2361423 | 2361274 | 149 | lmo2271 | <- | <- | -> | lmo2272 | sRNA | |
| rli49 | 2660179 | 2660364 | 185 | lmo2579 | -> | -> | <- | lmo2580 | sRNA | |
| rli50 | 2783274 | 2783098 | 176 | lmo2709 | -> | <- | <- | lmo2710 | sRNA Homolog of rli28 | |
| rli51 | 207589 | 207709 | 120 | hly | -> | -> | -> | mpl | 5'-UTR-derived Increased in intestinal lumen | |
| rli52 | 552421 | 552327 | 94 | lmo0517 | <- | <- | <- | lmo0518 | 5'-UTR-derived Putative riboswitch. | |
| rli53 | 955829 | 956001 | 172 | lmo0918 | -> | -> | -> | lmo0919 | 5'-UTR-derived Putative riboswitch. | |
| rli54 | 1078584 | 1079111 | 527 | lmo1051 | <- | -> | -> | pdhA | 5'-UTR-derived Putative riboswitch. | |
| rli55 | 1198107 | 1198389 | 282 | lmo1170 | -> | -> | -> | pduQ | 5'-UTR-derived Putative riboswitch. | |
| rli56 | 1199859 | 1199958 | 99 | pduQ | -> | -> | -> | lmo1172 | 5'-UTR-derived Putative riboswitch. | |
| rli57 | ? | 1216658 | ? | lmo1190 | -> | -> | -> | cbiA | 3'-UTR-derived Annotated as a cobalamin riboswitch in Rfam lmo1190-rli57 transcript levelncreasedinintestinal lumen | |
| rli58 | ? | 1639974 | ? | rpsD | -> | <- | <- | lmo1597 | ||
| rli59 | 1702553 | 1702373 | 180 | lmo1652 | <- | <- | <- | lmo1653 | 5'-UTR-derived | |
| rli60 | 2054124 | 2054308 | 184 | lmo1982 | <- | -> | -> | ilvD | 5'-UTR-derived Putative riboswitch. | |
| rli61 | 2275363 | 2275258 | 106 | lmo2187 | <- | <- | <- | lmo2188 | 5'-UTR-derived Putative riboswitch | |
| rli62 | 2364508 | 2364337 | 172 | lmo2277 | <- | <- | <- | lmo2278 | 5'-UTR-derived Putative riboswitch. | |
| rli63 | 2613301 | ? | ? | atpI | <- | <- | <- | lmo2537 | 5'-UTR-derived Putative riboswitch | |
| rliA | 513584 | 513807 | 224 | lmo0476 | <- | >- | >- | lmo0477 | snRNA | |
| rliB | 544357 | 544716 | 360 | lmo0509 | -> | -> | -> | lmo0510 | sRNA | |
| rliC | 1154309 | 1154671 | 363 | lmo1117 | -> | -> | <- | lmo1118 | sRNA | |
| rliD | 1359529 | 1359202 | 328 | rpsO | -> | <- | -> | pnpA | sRNA antisense | |
| rliE | 1584586 | 1584808 | 223 | comC | <- | -> | <- | folC | sRNA antisense to comC mRNA | |
| rliF | 2106292 | 2106073 | 220 | nadA | -> | <- | <- | lmo2026 | snRNA | |
| rliG | 2386992 | 2386715 | 278 | lmo2302 | <- | <- | <- | lmo2303 | sRNA | |
| rliH | 1180826 | 1181254 | 429 | lmo1150 | <- | -> | -> | lmo1151 | sRNA antisense | |
| rliI | 2842200 | 2841962 | 239 | lmo2760 | <- | <- | -> | lmo2761 | sRNA | |
| sbrA | 1399363 | 1399433 | 70 | lmo1374 | -> | -> | -> | lmo1375 | sRNA |
aArrows indicate the sense of the gene on the genome. Bold arrows indicate gene absent from L. innocua.
Listeria monocytogenes EGD-e strain was used in these studies EMBL accession AL591824.1
Characterised non-coding RNAs
| ID | Rfam | ID | Rfam |
|---|---|---|---|
| SAM SAM riboswitch (S box leader) The SAM riboswitch is found upstream of a number of genes which code for proteins involved in methionine or cysteine biosynthesis in Gram-positive bacteria. Two SAM riboswitches in Bacillus subtilis that were experimentally studied act at the level of transcription termination control... |
RF00162 | PrfA PrfA thermoregulator UTR The PrfA thermoregulator UTR is an RNA thermometer found in the 5' UTR of the prfA gene. In Listeria monocytogenes, virulence genes are maximally expressed at 37°C but are almost silent at 30°C. The genes are controlled by PrfA, a transcriptional activator whose expression is thermoregulated... |
RF00038 |
| LhrC | RF00616 | L10 leader Ribosomal protein L10 leader This family is a putative ribosomal protein leader autoregulatory structure found in B. subtilis and other low-GC Gram-positive bacteria. It is located in the 5' untranslated regions of mRNAs encoding ribosomal proteins L10 and L12... |
RF00557 |
| TPP TPP riboswitch (THI element) The TPP riboswitch, also known as the THI element and Thi-box riboswitch, is a highly conserved RNA secondary structure. It serves as a riboswitchthat binds directly to thiamine pyrophosphate to regulate gene expression through a variety of mechanisms in archaea, bacteria and eukaryotes... |
RF00059 | Purine Purine riboswitch Purine riboswitches are RNA structures that regulate protein biosynthesis in response to purines. In general, riboswitches are metabolite-binding domains within certain messenger RNAs that act as precision sensors for their corresponding targets... |
RF00167 |
| glmS GlmS glucosamine-6-phosphate activated ribozyme The Glucosamine-6-phosphate activated ribozyme is an RNA structure that is both a ribozyme, since it catalyzes a chemical reaction, and a riboswitch, since it regulates genes in response to concentrations of a metabolite.... |
RF00234 | lysine Lysine riboswitch The Lysine riboswitch is a metabolite binding RNA element found within certain messenger RNAs that serve as a precision sensor for the amino acid lysine. Allosteric rearrangement of mRNA structure is mediated by ligand binding, and this results in modulation of gene expression. This riboswitch is... |
RF00168 |
| PreQ1 | RF00522 | yybP-ykoY YybP-ykoY leader The yybP-ykoY leader RNA element was originally discovered in E. coli during a large scale screen and was named SraF. This family was later found to exist upstream of related families of protein genes in many bacteria, including the yybP and ykoY genes in B. subtilis... |
RF00080 |
| T-box T-box leader The T-box leader element is involved in the regulation of translation associated genes, usually in gram-positive bacteria. Typically T-box leaders are found upstream of aminoacyl-tRNA synthetase genes and some amino acid biosynthetic genes. Uncharged tRNA acts as the effector for transcription... |
RF00230 | glycine Glycine riboswitch The bacterial glycine riboswitch is an RNA element that can bind the amino acid glycine. Glycine riboswitches usually consist of two metabolite-binding aptamers domains with similar structures in tandem. The aptamers cooperatively bind glycine to regulate the expression of downstream genes... |
RF00504 |
| SsrS 6S / SsrS RNA 6S RNA was the first noncoding RNA to be sequenced, but its function was unknown until recently. It consists of 184 nucleotides that fold into an extended hairpin structure with a large single-stranded internal bulge.... |
RF00013 | L21 Ribosomal protein L21 leader This family is a putative ribosomal protein leader autoregulatory structure found in B. subtilis and other low-GC Gram-positive bacteria. It is located in the 5' untranslated regions of mRNAs encoding ribosomal protein L21, a protein of unknown function, and ribosomal protein L27 .Other ribosomal... |
RF00559 |
| LhrB Ribosomal protein L20 leader This family is a putative ribosomal protein leader autoregulatory structure found in B. subtilis and other low-GC Gram-positive bacteria. It is located in the 5' untranslated regions of mRNAs encoding initiation factor 3 followed by ribosomal proteins L35 and L20... |
RF00558 | RyrR PyrR binding site The PyrR binding site is an RNA element that is found upstream of a variety of genes involved in pyrimidine biosynthesis and transport.The RNA structure permits binding of PyrR protein which regulates pyrimidine biosynthesis in Bacillus subtilis. When the protein binds, a downstream terminator... |
RF00515 |
| FMN | RF00050 | LhrA | RF00615 |
| ssrA TmRNA Transfer-messenger RNA is a bacterial RNA molecule with dual tRNA-like and messenger RNA-like properties. The tmRNA forms a ribonucleoprotein complex together with Small Protein B , Elongation Factor Tu , and ribosomal protein S1... |
RF00023 | L13 | RF00555 |
| SRP Signal recognition particle RNA The signal recognition particle RNA, also known as 7SL, 6S, , or 4.5S RNA, is the RNA component of the signal recognition particle ribonucleoprotein complex. SRP is a universally conserved ribonucleoprotein that directs the traffic of proteins within the cell and allows them to be secreted... |
RF00169 |