Microbiological profiles of the Viking spacecraft

Puleo, J. R.; Fields, N. D.; Bergström, Sune; Oxborrow, Gordon S.; Stabekis, P.; Koukol, Robert

doi:10.1128/aem.33.2.379-384.1977

Cited by 91 publications

(53 citation statements)

References 10 publications

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“…There were no Eukarya found in the SAEF‐II samples, though seven strains of the fungus Aureobasidium pullulans were retrieved from the spacecraft samples . As observed in this communication, several culture‐dependent studies revealed that the microbial species recovered from air and surface samples in the clean‐room encapsulation facilities at the Kennedy Space Center are nearly identical to species recovered from surfaces of an unpiloted spacecraft (Favero et al ., 1966; Favero, 1971 ; Puleo et al ., 1977; Vasin and Trofimov, 1995). The elevated level of diversity seen in this study on the spacecraft surfaces might be attributed to the fact that the manufacturing and integration of various hardware components took place across various geographic regions prior to the final assembly at the KSC SAEF‐II.…”

Section: Resultsmentioning

confidence: 99%

“…Previous studies have shown that spore‐formers are the most common type of microbes isolated from surfaces of various spacecraft (Favero, 1971; Puleo et al ., 1973; 1975). A few studies have been conducted on the microbial ecology of spacecraft assembly and encapsulation facilities (Favero et al ., 1966, 1968b; Venkateswaran et al ., 2001), and it has been suggested that the level of microbial diversity and overall microbial burden associated with a spacecraft may be inferred from studying the microbial ecology of the facility where assembly and encapsulation take place (Puleo et al ., 1977).…”

Section: Introductionmentioning

confidence: 99%

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Microbial characterization of the Mars Odyssey spacecraft and its encapsulation facility

Duc

Nicholson

Kern

et al. 2003

Environmental Microbiology

158

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Microbial characterization of the Mars Odyssey spacecraft and the Kennedy Space Center Spacecraft Assembly and Encapsulation Facility II (SAEF-II) was carried out by both culture-based and molecular methods. The most dominant cultivable microbes were species of Bacillus, with comamonads, microbacteria and actinomycetales also represented. Several spore-forming isolates were resistant to gamma-radiation, UV, H2O2 and desiccation, and one Acinetobacter radioresistens isolate and several Aureobasidium, isolated directly from the spacecraft, survived various conditions. Sequences arising in clone libraries were fairly consistent between the spacecraft and facility; predominant genera included Variovorax, Ralstonia and Aquaspirillum. This study improves our understanding of the microbial community structure, diversity and survival capabilities of microbes in an encapsulation facility and physically associated with colocated spacecraft.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Microbial characterization of the Mars Odyssey spacecraft and its encapsulation facility

Duc

Nicholson

Kern

et al. 2003

Environmental Microbiology

158

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“…These organisms are representative strains of the endospore producing Bacillus sp. [14,17,[30][31][32][33][34]. Both strains produce spores that exhibit unusual levels of resistance to peroxide and UV radiation [25,30,35] that far exceed that of the dosimetric B. subtilis type strain (B. subtilis subsp.…”

Section: Introductionmentioning

confidence: 99%

Bacillus safensisFO-36b andBacillus pumilusSAFR-032: A Whole Genome Comparison of Two Spacecraft Assembly Facility Isolates

Tirumalai

Степанов

Wünsche

et al. 2018

Preprint

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BackgroundBacillus strains producing highly resistant spores have been isolated from cleanrooms and space craft assembly facilities. Organisms that can survive such conditions merit planetary protection concern and if that resistance can be transferred to other organisms, a health concern too. To further efforts to understand these resistances, the complete genome of Bacillus safensis strain FO-36b, which produces spore resistant to peroxide and radiation was determined. The genome was compared to the complete genome of B. pumilus SAFR-032, as well as draft genomes of B. safensis JPL-MERTA-8-2 and the type strain B. pumilus ATCC7061T. In addition, comparisons were made to 61 draft genomes that have been mostly identified as strains of B. pumilus or B. safensis.ResultsThe FO-36b gene order is essentially the same as that in SAFR-032 and other B. pumilus strains [1]. The annotated genome has 3850 open reading frames and 40 noncoding RNAs and riboswitches. Of these, 307 are not shared by SAFR-032, and 65 are also not shared by either MERTA or ATCC7061T. The FO-36b genome was found to have ten unique reading frames and two phage-like regions, which have homology with the Bacillus bacteriophage SPP1 (NC_004166) and Brevibacillus phage Jimmer1 (NC_029104). Differing remnants of the Jimmer1 phage are found in essentially all safensis/pumilus strains. Seven unique genes are part of these phage elements. Comparison of gyrA sequences from FO-36b, SAFR-032, ATCC7061T, and 61 other draft genomes separate the various strains into three distinct clusters. Two of these are subgroups of B. pumilus while the other houses all the B. safensis strains.ConclusionsIt is not immediately obvious that the presence or absence of any specific gene or combination of genes is responsible for the variations in resistance seen. It is quite possible that distinctions in gene regulation can change the level of expression of key proteins thereby changing the organism’s resistance properties without gain or loss of a particular gene. What is clear is that phage elements contribute significantly to genome variability. The larger comparison of multiple strains indicates that many strains named as B. pumilus actually belong to the B. safensis group.

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“…Secondary sources of contamination are controlled by good manufacturing practices and standard industrial practices. The microbes of concern in SAF are primarily spore-forming bacteria and microbes that are indigenous to human skin, hair, and respiratory tract (Puleo et al, 1977). Bacterial spores, particularly those in the Bacillus genus, are common in the spacecraft industry.…”

mentioning

confidence: 99%

Phylogenetic Characterization and Description of Novel-tolerant Bacillus Species Isolated from Spacecraft Assembly Facility

Venkateswaran

Echeverria

et al. 2000

SAE Technical Paper Series

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Microbiological profiles of the Viking spacecraft

Cited by 91 publications

References 10 publications

Microbial characterization of the Mars Odyssey spacecraft and its encapsulation facility

Microbial characterization of the Mars Odyssey spacecraft and its encapsulation facility

Bacillus safensisFO-36b andBacillus pumilusSAFR-032: A Whole Genome Comparison of Two Spacecraft Assembly Facility Isolates

Phylogenetic Characterization and Description of Novel-tolerant Bacillus Species Isolated from Spacecraft Assembly Facility

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