Sequence breakpoints in the aflatoxin biosynthesis gene cluster and flanking regions in nonaflatoxigenic Aspergillus flavus isolates.
about
Sexuality generates diversity in the aflatoxin gene cluster: evidence on a global scaleBiological control of aflatoxin contamination of cropsNon-aflatoxigenic Aspergillus flavus to prevent aflatoxin contamination in crops: advantages and limitationsMIDDAS-M: motif-independent de novo detection of secondary metabolite gene clusters through the integration of genome sequencing and transcriptome dataBiodiversity of Aspergillus section Flavi in Europe in relation to the management of aflatoxin riskBiodiversity of Aspergillus species in some important agricultural products.Gene duplication, modularity and adaptation in the evolution of the aflatoxin gene cluster.Biodiversity of Aspergillus section Flavi in the United States: a review.Phylogenomics reveals subfamilies of fungal nonribosomal peptide synthetases and their evolutionary relationships.The genomics of microbial domestication in the fermented food environment.Identification of telomerase RNAs from filamentous fungi reveals conservation with vertebrates and yeasts.Indole-diterpene biosynthetic capability of epichloë endophytes as predicted by ltm gene analysis.Sexual reproduction in Aspergillus flavus.Association of fungal secondary metabolism and sclerotial biology.Sex and recombination in aflatoxigenic Aspergilli: global implications.Multifunctional polyketide synthase genes identified by genomic survey of the symbiotic dinoflagellate, Symbiodinium minutum.Sexual Reproduction in Aspergillus flavus Sclerotia: Acquisition of Novel Alleles from Soil Populations and Uniparental Mitochondrial Inheritance.Silencing of the aflatoxin gene cluster in a diploid strain of Aspergillus flavus is suppressed by ectopic aflR expression.Genome Sequences of Eight Aspergillus flavus spp. and One A. parasiticus sp., Isolated from Peanut Seeds in GeorgiaMolecular characterisation of Aspergillus flavus isolates from peanut fields in India using AFLPThe evolutionary imprint of domestication on genome variation and function of the filamentous fungus Aspergillus oryzae.Mathematic modeling for optimum conditions on aflatoxin B₁degradation by the aerobic bacterium Rhodococcus erythropolis.Degeneration of aflatoxin gene clusters in Aspergillus flavus from Africa and North AmericaOperonsAddition of Carbon to the Culture Medium Improves the Detection Efficiency of Aflatoxin Synthetic Fungi.Oxidative stress and carbon metabolism influence Aspergillus flavus transcriptome composition and secondary metabolite production.Cyclopiazonic acid biosynthesis of Aspergillus flavus and Aspergillus oryzaeCurrent understanding on aflatoxin biosynthesis and future perspective in reducing aflatoxin contamination.Co-inoculation of aflatoxigenic and non-aflatoxigenic strains of Aspergillus flavus to study fungal invasion, colonization, and competition in maize kernels.Evaluation of atoxigenic isolates of Aspergillus flavus as potential biocontrol agents for aflatoxin in maize.Unravelling the Diversity of the Cyclopiazonic Acid Family of Mycotoxins in Aspergillus flavus by UHPLC Triple-TOF HRMS.Aflatoxins: Implications on Health.Characterization of aflatoxigenic Aspergillus flavus and A. parasiticus strain isolates from animal feedstuffs in northeastern Iran.Enhanced diversity and aflatoxigenicity in interspecific hybrids of Aspergillus flavus and Aspergillus parasiticus.Beyond aflatoxin: four distinct expression patterns and functional roles associated with Aspergillus flavus secondary metabolism gene clusters.Identification and Quantification of a Toxigenic and Non-Toxigenic Aspergillus flavus Strain in Contaminated Maize Using Quantitative Real-Time PCR.An industry perspective on the use of "atoxigenic" strains of Aspergillus flavus as biological control agents and the significance of cyclopiazonic acid.Molecular characterization of atoxigenic strains for biological control of aflatoxins in Nigeria.Effect of sexual recombination on population diversity in aflatoxin production by Aspergillus flavus and evidence for cryptic heterokaryosis.Sexual recombination in Aspergillus tubingensis.
P2860
Q21131374-0E57723C-FFA6-47BC-B861-F5EF91031A85Q24654093-551BD47C-D61D-4D9B-BF61-9A6F669726A4Q27687465-934E67BA-E897-40D4-9D40-3F9909A9B357Q30726460-B5E3DEFA-B11E-4CD4-831A-3ADA3ECEC45EQ30841141-5352B2B2-067D-4FBA-B741-77A2827E2D7BQ31155895-67799AA5-F3F6-4974-AF9D-BFAC6C589DCCQ33290337-D4B09E77-E1EA-48BF-B7AE-79ACA7A49EEBQ33298763-30627DC7-AB2F-4265-A6E7-A2F5C1D9D7BBQ33526501-3FD89973-EC20-4286-A419-6B59BFB74D15Q34492421-898B576C-4BB6-4BB4-B01E-DDA83AFC3B0EQ34650480-029D985D-B35B-422F-ADF0-23DB53EA19FFQ34933559-1CBAAED7-B3C3-4E4A-ACBF-D8AE2EA95F52Q34987610-FA857061-C97C-486C-A28E-F23530EA95CFQ35087342-5D272E98-C3AB-45AB-94E0-1E431ABE9CFEQ35097165-97248E8C-2A76-4246-9D89-F9364A6B93FEQ35842985-4F4FB0CE-C403-4BC9-90A7-EE9AA64142EFQ35885585-B3F28448-570B-4269-B36B-D09EB407C706Q35945659-A0E3EACB-AB84-4500-B199-AB9728E245B0Q35990729-A1F189DE-A085-4FD5-B2CE-59F504858BDCQ36057368-405D48F7-4D9B-49F8-9BF1-56B42FD8F44CQ36157418-27568ECD-50E3-4B0A-A756-C6115FE20A73Q36432798-93210592-4720-4DB3-86C3-6886C61FB3E8Q37217939-147C8338-1C31-444A-ADC7-2A266421EA6FQ37418706-C266DAB9-13D6-4910-8DA5-FED0FC250E2DQ37450455-9B24D150-5F16-41BE-A2FA-6DBBEF002326Q37493497-4AAEF3F8-158F-4532-B233-B6FDCD9DBFCEQ37954263-DA5FDA69-4A3C-4CF5-991B-961834F1BD7AQ38064273-011C74F7-46F6-4344-9669-B3C2E50A4148Q38599004-3CCF8464-110B-4CA5-81C0-2D0D87A68EBBQ38882858-733B65E7-D2D0-4A0A-9A13-B00E9AB3A328Q39015107-AD8C564F-9031-4F64-A4F8-2771329C1341Q39253639-740F6A47-CDB8-4BA3-BD7A-8F5475EA4900Q40032933-01E1C257-189B-4317-B6EF-143F075D0E0AQ41216453-A5F34558-EAD0-4105-AF56-A435B54E861EQ41991820-C63BC363-DD8D-4854-9C67-EBFFC935644DQ42110891-3C9956B9-036A-4B03-A2B3-10A481BFA8D3Q42140388-20F5BE2C-3490-494E-9AF1-E00837D4E000Q43068215-4DCC2DA5-EFE7-46E5-9787-440B69CE0F3DQ44862950-7F24A67A-2AE8-4F69-98BE-98A08AD27F04Q44877198-D11256A8-A82E-4471-B22B-4C06F62DF367
P2860
Sequence breakpoints in the aflatoxin biosynthesis gene cluster and flanking regions in nonaflatoxigenic Aspergillus flavus isolates.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@en
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@nl
type
label
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@en
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@nl
prefLabel
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@en
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@nl
P2093
P1476
Sequence breakpoints in the af ...... c Aspergillus flavus isolates.
@en
P2093
Bruce W Horn
Joe W Dorner
Perng-Kuang Chang
P304
P356
10.1016/J.FGB.2005.07.004
P577
2005-09-09T00:00:00Z