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词条 Streptomyces sp. myrophorea
释义

  1. Physiology and morphology

  2. Ecology

  3. Antibiotic production

  4. Alkaline tolerance

  5. In-vitro antibiotic resistance

  6. Whole genome sequencing

  7. References

  8. External Links

{{Taxobox
| image = Streptomyces sp. myrophorea on agar.jpg
| image_caption = Mature Streptomyces sp myrophorea showing dusty green colonies with feint concentric rings
| domain = Bacteria
| phylum = Actinobacteria
| ordo = Actinomycetales
| familia = Streptomycetaceae
| genus = Streptomyces
| species = Streptomyces species
| variety = Streptomyces sp. myrophorea isolate McG1
| }}Streptomyces sp. myrophorea, isolate McG1 is species of Streptomyces, that originates from a (ethnopharmacology) folk cure in the townland of Toneel North in Boho, County Fermanagh.[1] This area was previously occupied by the Druids (~1500 years ago) and before this neolithic people (~ 3,700 years ago) who engraved the nearby Reyfad stones.[2] Streptomyces sp. myrophorea is inhibitory to many species of ESKAPE pathogens, can grow at high pH (10.5) and can tolerate relatively high levels of radioactivity.[1]

Physiology and morphology

Streptomyces sp. myrophorea isolate McG1 has light green to white spores and hyphae when cultivated on SFM agar.[1]

The colonies of Streptomyces sp. myrophorea have a distinctly dusty appearance and produce an aroma similar to germaline on maturation.[1] This bacteria produces many spores, approximately 0.5-1.0 micrometers in width which form in straight chains.[1]

Ecology

Streptomyces sp. myrophorea isolate McG1 was discovered in an alkaline, species rich environment. This bacteria grows at a maximum pH of 10.5, and is therefore alkaliphilic. The bacteria tolerate higher levels of alkalinity but do not thrive.[1]Streptomyces sp. myrophorea can also withstand relatively high levels of radiation (up to 4kGy. This may be related to the underlying limestone and shale substrata which emits radon gas.[1]

Antibiotic production

Only antibiotic gene synthesis clusters have been identified in Streptomyces sp. myrophorea; the antibiotics actually produced in-situ have yet to be identified.[1] Streptomyces sp. McG1 is broadly inhibitory to both Gram positive and Gram negative bacteria including carbapenem resistant Acinetobacter baumannii, (a critical pathogen on the World Health Organization priority pathogens list), vancomycin resistant Enterococcus faecium, methicillin resistant Staphylococcus aureus (listed as high priority) and Klebsiella pneumoniae.[1][3] Streptomyces sp. myrophorea has limited effects against strains of Enterococcus faecium and Pseudomonas aeruginosa.[1]

Alkaline tolerance

Streptomyces sp. myrophorea may be able to flourish in an alkaline environment because it contains many genes similar to those associated with alkaline tolerance in other bacterial species.[4][5]Streptomyces sp. myrophorea list of alkaline tolerance genes:[1]
Gene Protein
504 Alkaline shock protein 23
6561 Alkaline shock protein 23
1049 Ammonium/H+ antiporter subunit amhM
2800 Aspartate/alanine antiporter
2801 Aspartate/alanine antiporter
6218 Aspartate/alanine antiporter
3284 Enhanced intracellular survival protein
159 K+/H+ antiporter nhaP
3788 K+/H+ antiporter nhaP2
1050 K+/H+ antiporter yhaU
2193 K+/H+ antiporter yhaU
1325 K+ insensitive pyrophosphate- energized proton pump
923 Multidrug resistance protein mdtH
3240 Multidrug resistance protein mdtH
3252 Multidrug resistance protein mdtH
6781 Multidrug resistance protein mdtH
1282 Na+/H+ antiporter nhaA
4210 Na+/H+ antiporter subunit A
4211 Na+/H+ antiporter subunit C
4212 Na+/H+ antiporter subunit D
4215 Na+/H+ antiporter subunit G
660 Na+/(H+or K+) antiporter gerN
3425 Na+/(H+or K+) antiporter gerN
7210 putative Na+/H+ exchanger
1727 Sodium, potassium, lithium and rubidium/H+ antiporter

In-vitro antibiotic resistance

The presence of antibiotic resistance genes is often linked to the production of antibiotics.[6] Stretpomyces sp. myrophorea has been recorded to be resistant to 28 antibiotics and sensitive to eight antibiotics in one series of tests. The antibiotics were tested at breakpoint concentrations recommended by The European Committee on Antimicrobial Susceptibility Testing - EUCAST, to test antimicrobial susceptibility.[1] [7]

Antibiotic sensitivity of Streptomyces sp. myrophorea:[1]

Sensitivities recorded as: Sensitivite (S), Resistant (R) or Intermediate (I).

Antibiotic Quantity (µg) Sensitivity
Amikacin 30 S
Ampicillin 30 R
Ampicillin + sulbactam 20 R
Augmentin 30 R
Apromycin 20 R
Carbenicillin 20 R
Cefepime 30 R
Ceftazidime 10 R
Ceftibuten 30 R
Cefoxitin 30 R
Ceftriaxone 30 R
Cefuroxime 30 R
Cefurin 5 R
Ciprofloxacin 5 R
Clavuranic acid 10 R
Ertapenem 10 R
Erythromycin 15 I
Gentamicin 10 S
Imipenem 10 R
Kanamycin 20 R
Linezolid 10 I
Meropenem 10 R
Mupiricin 200 R
Netilmicin 10 S
Nitrofurantoin 100 R
Novobiocin 5 R
Piperacillin + tazobactam 36 R
Quinpristin + dalropristin 5 R
Rifampicin 5 R
Streptomycin 20 R
Tigecycline 15 R
Tetracycline 20 R
Trimethoprim + sulfamethoxazole 25 R
Vancomycin 5 R

Whole genome sequencing

The genome sequence of Streptomyces sp. myrophorea, isolate McG1 was deposited at the NCBI

(TaxID 2099643),

Biosample accession number SAMN08518548,

BioProject accession number PRJNA433829,

Submission ID: SUB3653175

Locus tag prefix: C4625. https://www.ncbi.nlm.nih.gov/bioproject/433829.[1]

Link to NCBI sequence read archive (SRA) https://www.ncbi.nlm.nih.gov/sra?LinkName=biosample_sra&from_uid=8518548

Copies of this bacteria are deposited in the National Collection of Type Cultures (NCTC), UK[8] and the Deutsche Sammlung von Mikroorganismen und Zellkulturen (DSMZ) GmbH, Germany.[9]

References

1. ^10 11 12 13 {{cite journal |author1= Terra, L. et. al. |year=2018 |title= A Novel Alkaliphilic Streptomyces Inhibits ESKAPE Pathogens |journal= Frontiers in Microbiology, Extreme Microbiology, Topic (For the Future of Alkaliphiles: 50th Anniversary Year Since the Rediscovery of Alkaliphiles by Dr. Koki Horikoshi)|volume=9 |pages=2458 |doi= 10.3389/fmicb.2018.02458 |pmid=30459722 |pmc=6232825 }}
2. ^{{cite book |title=Ireland: an Oxford archaeological guide to sites from earliest times to AD 1600|author1= Andrew Halpin |author2= Conor Newman |publisher= Oxford University Press |year=2006|page=8|isbn=978-0-19-280671-0 }}
3. ^{{cite web |title= Global priority list of antibiotic-resistant bacteria to guide research, discovery, and development of new antibiotics |publisher= World Health Organization |url= https://www.who.int/medicines/publications/global-priority-list-antibiotic-resistant-bacteria/en/}}
4. ^{{cite journal |author1=Holdsworth, S. R.|author2=Law, C. J. |year= 2013 |title= Multidrug Resistance Protein MdtM Adds to the Repertoire of Antiporters Involved in Alkaline pH Homeostasis in Escherichia coli|journal=BMC Microbiology |volume= 13 |pages= 113 |doi= 10.1186/1471-2180-13-113 |pmid=23701827 |pmc=3668916 }}
5. ^{{cite journal |author1=Krulwich, T. A.|author2= Sachs, G.|author3= Padan, E. |year= 2011|title= Molecular Aspects of Bacterial pH Sensing and Homeostasis |journal= Nature Reviews Microbiology | volume= 9|issue= 5|pages= 330–343 |doi= 10.1038/nrmicro2549 |pmid= 21464825|pmc= 3247762}}
6. ^{{cite journal |author=Nodwell, J.R. |year=2007 |title=Novel Links between Antibiotic Resistance and Antibiotic Production |journal=Journal of Bacteriology |volume= 189 |issue=10 |pages= 3683–3685 |doi= 10.1128/JB.00356-07 |pmid=17384190 |pmc=1913332 }}
7. ^{{cite web |title= The European Committee on Antimicrobial Susceptibility Testing - EUCAST |url= http://www.eucast.org/|accessdate= 2018-10-13}}
8. ^{{cite web |title= National Collection of Type Cultures (NCTC) |publisher= Public Health England |url= https://www.phe-culturecollections.org.uk/collections/nctc.aspx |accessdate= 2018-10-13}}
9. ^{{cite web |title= Leibniz Institute DSMZ-German Collection of Microorganisms and Cell Cultures |publisher= Leibniz-Institut DSMZ-Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH |url= https://www.dsmz.de/home.html|accessdate= 2018-10-13}}

External Links

  • {{cite journal |doi=10.3389/fmicb.2018.02458 |pmid=30459722 |pmc=6232825 |title=A Novel Alkaliphilic Streptomyces Inhibits ESKAPE Pathogens |journal=Frontiers in Microbiology |volume=9 |pages=2458 |year=2018 |last1=Terra |first1=Luciana |last2=Dyson |first2=Paul J. |last3=Hitchings |first3=Matthew D. |last4=Thomas |first4=Liam |last5=Abdelhameed |first5=Alyaa |last6=Banat |first6=Ibrahim M. |last7=Gazze |first7=Salvatore A. |last8=Vujaklija |first8=Dušica |last9=Facey |first9=Paul D. |last10=Francis |first10=Lewis W. |last11=Quinn |first11=Gerry A. }}
  • {{cite web |url=https://trace.ncbi.nlm.nih.gov/Traces/sra/?run=SRR6885383 |title=Streptomyces McG#1 from Boho in Northern Ireland }}
  • {{cite journal |doi=10.3389/fmicb.2018.02458 |pmid=30459722 |pmc=6232825 |title=A Novel Alkaliphilic Streptomyces Inhibits ESKAPE Pathogens |journal=Frontiers in Microbiology |volume=9 |pages=2458 |year=2018 |last1=Terra |first1=Luciana |last2=Dyson |first2=Paul J. |last3=Hitchings |first3=Matthew D. |last4=Thomas |first4=Liam |last5=Abdelhameed |first5=Alyaa |last6=Banat |first6=Ibrahim M. |last7=Gazze |first7=Salvatore A. |last8=Vujaklija |first8=Dušica |last9=Facey |first9=Paul D. |last10=Francis |first10=Lewis W. |last11=Quinn |first11=Gerry A. }}

6 : Extremophiles|Alkaliphiles|Actinobacteria|Streptomyces|Limestone|Fermanagh and Omagh district
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