Methods for integrated air sampling and dna analysis for detection of airborne fungal spores.
about
Chamber evaluation of a personal, bioaerosol cyclone samplerField evaluation of a personal, bioaerosol cyclone samplerIndirect immunodetection of fungal fragments by field emission scanning electron microscopyCollection efficiencies of an electrostatic sampler with superhydrophobic surface for fungal bioaerosolsAtmospheric movement of microorganisms in clouds of desert dust and implications for human healthMolecular evolution of adenylating domain of aminoadipate reductaseAnalysis of Airborne Biomarkers for Point-of-Care DiagnosticsAn Impedance-Based Mold Sensor with on-Chip Optical ReferenceMicrobial structure and chemical components of aerosols caused by rotating brushes in a wastewater treatment plant.Short-term temporal variability in airborne bacterial and fungal populations.Bioaerosols from municipal and animal wastes: background and contemporary issues.AFLP analysis reveals high genetic diversity but low population structure in Coccidioides posadasii isolates from Mexico and ArgentinaDevelopment of quantitative real-time PCR assays for detection and quantification of surrogate biological warfare agents in building debris and leachate.Assessment of fungal contamination in moldy homes: comparison of different methodsSpecies-specific fungal DNA in airborne dust as surrogate for occupational mycotoxin exposure?Real-time detection of airborne viruses on a mass-sensitive device.A DNA aptamer recognizes the Asp f 1 allergen of Aspergillus fumigatus.Fungal spores: a critical review of the toxicological and epidemiological evidence as a basis for occupational exposure limit setting.Inactivation of viruses in bubbling processes utilized for personal bioaerosol monitoring.Detection and quantification of Wallemia sebi in aerosols by real-time PCR, conventional PCR, and cultivation.Monitoring of occupational and environmental aeroallergens-- EAACI Position Paper. Concerted action of the EAACI IG Occupational Allergy and Aerobiology & Air Pollution.Nucleic acid spot hybridization based species-specific detection of Sclerotium rolfsii associated with collar rot disease of Amorphophallus paeoniifolius.A method for the direct detection of airborne dispersal in lichens.UV-based evaluation of ergosterol for monitoring the fungal exposure in Italian buffalo farms.Bacterial and fungal counts in hospital air: comparative yields for 4 sieve impactor air samplers with 2 culture media.Growth of Paecilomyces variotii in B0 (diesel), B100 (biodiesel) and B7 (blend), degradation and molecular detection.Morphological, molecular, and mycotoxigenic identification of dominant filamentous fungi from moldy civil cheese.Toxigenic Fusarium spp. as determinants of trichothecene mycotoxins in settled grain dust.Detection and quantification of airborne inoculum of Blumeria graminis f. sp. tritici using quantitative PCR
P2860
Q23914474-BDC73A24-7196-42A5-A023-D0FA2CC469C8Q23914475-61D30FA2-8403-4074-8966-3D0DB1FEE644Q23916337-F57FF016-1429-4C4A-81B6-46834286C206Q23922163-6B5C00C1-6E1A-437D-8591-AB3992B83E18Q24685017-6C3135DA-31B8-4B19-8DB6-4A057522F41EQ24801066-1B8D66CB-80DA-4BEE-9B8B-24E9E39C41CDQ27026411-481F6E2F-795B-4112-AF87-4839A13A6D64Q28392883-EC13AD50-2385-4E21-95A7-141604192449Q31056024-EF7385BE-C0E5-4760-8BB1-E13F2F7E60E3Q33304962-98261DF4-D094-4A37-9FEE-D82902F175F1Q34154517-8F33B5D8-0CC0-44AB-8529-00B000488098Q34978357-01AB05D4-F0F2-4328-9CD2-21EDEEE45CA4Q36137221-CCBDFC98-BA23-44EC-9A92-3E5A81E7187EQ36445522-E51FA35D-F0FB-488B-857E-8C4938C87118Q37083340-841E89E1-720E-4F35-AF57-384D28A57036Q37193912-FE46D016-52F1-4E65-90C7-0D2A78294ABDQ37306793-AEB7430E-FC8A-4CF6-A6B2-96D2DBF25874Q37622960-544B455C-EF2E-4087-AC89-4C83596D2578Q37701339-BE768AC5-ED79-4C6D-8802-186671CDA297Q37701453-BDEB1C51-6E65-4E5E-943A-A6EE8A21A157Q38217435-B65944E3-F9FE-449E-AAEA-FFC242914EBAQ41634344-95513FA0-F62A-4AEC-B936-A83668540D05Q46270841-E636757C-E08F-451D-A70B-75416573F2D8Q47732636-39B742CD-E938-40DA-83B1-54CD604057ECQ51096699-96740D42-3918-41C1-81C5-77AD26CCE80EQ53667376-8A0C78DE-49CC-4B6E-96BA-320638AF4309Q54284869-F16FD9FB-7A2E-4EE3-9F4D-A60AA05A01EBQ54578444-0F569DB1-9C39-4536-855C-41902B891B3AQ57822228-33695AD7-5025-44CC-94B3-A3750E64F145
P2860
Methods for integrated air sampling and dna analysis for detection of airborne fungal spores.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
2001年论文
@zh
2001年论文
@zh-cn
name
Methods for integrated air sam ...... ion of airborne fungal spores.
@en
Methods for integrated air sam ...... ion of airborne fungal spores.
@nl
type
label
Methods for integrated air sam ...... ion of airborne fungal spores.
@en
Methods for integrated air sam ...... ion of airborne fungal spores.
@nl
prefLabel
Methods for integrated air sam ...... ion of airborne fungal spores.
@en
Methods for integrated air sam ...... ion of airborne fungal spores.
@nl
P2093
P2860
P1476
Methods for integrated air sam ...... ion of airborne fungal spores.
@en
P2093
H A McCartney
R H Williams
P2860
P304
P356
10.1128/AEM.67.6.2453-2459.2001
P407
P577
2001-06-01T00:00:00Z