@article{.20080424print,
  added-at = {2008-06-04T15:57:40.000+0200},
  author = {Consortium, Tribolium Genome Sequencing},
  biburl = {http://www.bibsonomy.org/bibtex/29e10ea798e2c2439d2686fc7ee16ab82/ifzappliedentomol},
  interhash = {d91fc57631d1148b6a06f422a8c3d8a9},
  intrahash = {9e10ea798e2c2439d2686fc7ee16ab82},
  issn = {0028-0836},
  journal = {Nature},
  keywords = {IFZ imported},
  number = 7190,
  pages = {949-955},
  timestamp = {2008-06-04T15:57:40.000+0200},
  title = {The genome of the model beetle and pest Tribolium castaneum},
  url = {http://www.nature.com/nature/journal/v452/n7190/abs/nature06784.html;jsessionid=AC71DA175AAD36480F2AD98CE1FAE815},
  volume = 452,
  year = {2008/04/24/print}
}

@article{ISI:000251633600049,
  abstract = {Apple proliferation caused by the apple proliferation phytoplasma,
�Candidatus Phytoplasma mali�, causes major economic losses in European
apple production. The apple proliferation phytoplasma is naturally
spread by the two leaf sucker species Cacopsylla melanoneura and C
picta (Hemiptera: Sternorrhyncha: Psyllidae) It was investigated in a
previous study that both psyllid species use chemical cues for
orientation. In this study investigation were: carried out on the
behavioural reactions of C. picta on volatiles from healthy plants and
those infected with apple proliferation in respect to the infection
status of the psyllids themselves and to their previous host
experience. The influence of the apple proliferation phytoplasma on the
volatile emission of apple trees was investigated by head space
collection followed by gas chromatography coupled with mass
spectrometry.
The differences in the behavioural responses to the volatiles of
infected versus non-infected plants as well as the respective
differences detected among the volatile compounds will be presented and
ecological interactions between the association of C picta and �Ca. P.
mali� will be discussed.},
  added-at = {2008-06-04T15:33:28.000+0200},
  author = {Mayer, Christoph J. and Vilcinskas, Andrea and Gross, Jurgen},
  biburl = {http://www.bibsonomy.org/bibtex/2b712609d4df39ce9cf928a0129b61796/ifzappliedentomol},
  interhash = {64403adbc9975c4a0cf3f7e1d6cc5656},
  intrahash = {b712609d4df39ce9cf928a0129b61796},
  issn = {1721-8861},
  journal = {BULLETIN OF INSECTOLOGY},
  keywords = {Cacopsylla_picta Candidatus_Phytoplasma_mali IFZ Malus_domestica apple_proliferation head_space olfactory_orientation plant plant_odours psyllidae volatiles},
  number = 2,
  pages = {209-210},
  timestamp = {2008-06-04T15:33:28.000+0200},
  title = {Chemo-ecologically mediated interactions among Candidatus Phytoplasma mah, its vector Cacopsylla picta, and their host plant Malus domestica},
  volume = 60,
  year = 2007
}

@article{ISI:000253050600007,
  abstract = {Beetles share with other eukaryotes an innate immune system that
mediates endogenous defense against pathogens. In addition, larvae of
some taxa produce fluid exocrine secretions that contain antimicrobial
compounds. In this paper, we provide evidence that larvae of the brassy
willow leaf beetle Phratora vitellinae constitutively release volatile
glandular secretions that combat pathogens in their microenvironment.
We identified salicylaldehyde as the major component of their
enveloping perfume cloud, which is emitted by furrow-shaped openings of
larval glandular reservoirs and which inhibits in vitro the growth of
the bacterial entomopathogen Bacillus thuringiensis. The suggested role
of salicylaldehyde as a fumigant in exogenous antimicrobial defense was
confirmed in vivo by its removal from glandular reservoirs. This
resulted in an enhanced susceptibility of the larvae to infection with
the fungal entomopathogens Beauveria bassiana and Metarhizium
anisopliae. Consequently, we established the hypothesis that
antimicrobial defense in beetles can be expanded beyond innate immunity
to include external disinfection of their microenvironment, and we
report for the first time the contribution of fumigants to
antimicrobial defense in animals.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Gross, Juergen and Schumacher, Kerstin and Schmidtberg, Henrike and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/20b8a08d63d119aa60bd3cccba8ee120a/ifzappliedentomol},
  interhash = {10d8a587b23a8ec0efc2b5758d7eca06},
  intrahash = {0b8a08d63d119aa60bd3cccba8ee120a},
  issn = {0098-0331},
  journal = {JOURNAL OF CHEMICAL ECOLOGY},
  keywords = {Bacillus_thuringiensis Beauveria_bassiana IFZ Metarhizium_anisopliae Phratora_vitellinae antimicrobial_activity fumigants glandular salicylaldehyde secretion},
  number = 2,
  pages = {179-188},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Protected by fumigants: Beetle perfumes in antimicrobial defense},
  volume = 34,
  year = 2008
}

@article{ISI:000243230500018,
  abstract = {Thermolysin-like metalloproteinases such as aureolysin, pseudolysin,
and bacillolysin represent virulence factors of diverse bacterial
pathogens. Recently, we discovered that injection of thermolysin into
larvae of the greater wax moth, Galleria mellonella, mediated strong
immune responses. Thermolysin-mediated proteolysis of hemolymph
proteins yielded a variety of small-sized (< 3 kDa) protein fragments
(protfrags) that are potent elicitors of innate immune responses. In
this study, we report the activation of a serine proteinase cascade by
thermolysin, as described for bacterial lipopolysaccharides (LPS), that
results in subsequent prophenoloxidase activation leading to
melanization, an elementary immune defense reaction of insects.
Quantitative real-time reverse transcription-PCR analyses of the
expression of immune-related genes encoding the inducible
metalloproteinase inhibitor, gallerimycin, and lysozyme demonstrated
increased transcriptional rates after challenge with purified protfrags
similar to rates after challenge with LPS. Additionally, we determined
the induction of a similar spectrum of immune-responsive proteins that
were secreted into the hemolymph by using comparative proteomic
analyses of hemolymph proteins from untreated larvae and from larvae
that were challenged with either protfrags or LPS. Since G. mellonella
was recently established as a valuable pathogenicity model for
Cryptococcus neoformans infection, the present results add to our
understanding of the mechanisms of immune responses in G. mellonella.
The obtained results support the proposed danger model, which suggests
that the immune system senses endogenous alarm signals during infection
besides recognition of microbial pattern molecules.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Altincicek, Boran and Linder, Monica and Linder, Dietmar and Preissner, Klaus T. and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/2294b9bcfd3afc46dc99bae42b84d8bec/ifzappliedentomol},
  interhash = {37546f859bd8a251f68577f5f59c109e},
  intrahash = {294b9bcfd3afc46dc99bae42b84d8bec},
  issn = {0019-9567},
  journal = {INFECTION AND IMMUNITY},
  keywords = {IFZ imported},
  number = 1,
  pages = {175-183},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Microbial metalloproteinases mediate sensing of invading pathogens and activate innate immune responses in the lepidopteran model host Galleria mellonella},
  volume = 75,
  year = 2007
}

@article{ISI:000253615400014,
  abstract = {The red flour beetle, Tribolium castaneum, is an established
genetically tractable model insect for evolutionary and developmental
studies. Therefore, it may also represent a valuable model for
comparative analysis of insect immunity. Here, we used the suppression
subtractive hybridization method to identify Tribolium genes that are
transcriptionally induced in response to injection of crude
lipopolysaccharide (LPS). Determined genes encode proteins that share
sequence similarities with counterparts from other insects known to
mediate sensing of infection (e.g. Toll and PGRP) or to represent
potential antimicrobial effectors (e.g. ferritin, c-type lysozyme,
serine proteinase inhibitors, and defensins). Especially significant is
the identification of thaumatin-like peptides, representing ancient
antifungal peptides originally reported from plants, that are absent
from the genomes of many other insects such as Drosophila, Anopheles,
and Apis. We produced recombinant thaumatin-1 in bacteria and we found
that it represents an antimicrobial peptide against filamentous fungi
in Tribolium. Additionally, septic injury induces expression of genes
involved in stress adaptation (e.g. heat-shock proteins) or insecticide
resistance (e.g. cytochrome P450s) in Tribolium, suggesting that there
may be crosstalk between the immune and stress responses. (c) 2007
Elsevier Ltd. All rights reserved.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Altincicek, Boran and Knorr, Eileen and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/22e383cfc3af657e8c813aca831a78dc0/ifzappliedentomol},
  interhash = {079c0f52389b1d6ed29498f15be8914c},
  intrahash = {2e383cfc3af657e8c813aca831a78dc0},
  issn = {0145-305X},
  journal = {DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY},
  keywords = {IFZ Tribolium_castaneum defensin innate_immunity model_organism response stress thaumatin},
  number = 5,
  pages = {585-595},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Beetle immunity: Identification of immune-inducible genes from the model insect Tribolium castaneum},
  volume = 32,
  year = 2008
}

@article{ISI:000253576600010,
  abstract = {Matrix metalloproteinases (MMPs) are key enzymes in mammalian tissue
remodeling and inflammation. Recently, we postulated that an endogenous
MMP expressed in the lepidopteran model Galleria mellonella during
metamorphosis causes degradation of collagen-IV, which in turn results
in activation of innate immunity. Here, we report that degradation of
collagen-IV by hemocytes is enhanced upon injection of bacterial
lipopolysaccharide (LPS), and that this activity is sensitive to the
MMP-inhibitor GM6001. Therefore, we screened for enzymes behind this
activity and identified the first MMP from Lepidoptera (Gm1-MMP), and
the third from insects. Gm1-MMP shares homology with the first MMP from
Drosophila (Dm1-MMP) known to be essential for tissue remodeling during
metamorphosis. Using quantitative real-time reverse transcriptase
polymerase chain reaction (RT-PCR) analysis, we confirmed up-regulation
of Gm1-MMP expression after pupation, when extracellular matrix
breakdown of larval tissues occurs. In addition, we determined that LPS
challenge induces Gm1-MMP expression in hemocytes, implicating its
participation in collagen-IV degradation upon septic injury. These
results suggest dual roles of Gm1-MMP in innate immunity and
metamorphosis. Interestingly, our phylogenetic analysis elucidates that
Gm1-MMP share highest similarity with human MMP-19 and MMP-28, whose
functions in mammalian wounding and inflammatory response have recently
been demonstrated; hence, the present findings may provide insights
into the evolutionarily conserved features of MMPs. (c) 2007 Elsevier
Ltd. All rights reserved.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Altincicek, Boran and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/23319b6e460775494ae85eead57adf3f7/ifzappliedentomol},
  interhash = {80fb7c8682804e320e6965bf13ebfb73},
  intrahash = {3319b6e460775494ae85eead57adf3f7},
  issn = {0145-305X},
  journal = {DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY},
  keywords = {Galleria IFZ danger_model innate_immunity insects matrix_metalloproteinase mellonella metamorphosis},
  number = 4,
  pages = {400-409},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Identification of a lepidopteran matrix metalloproteinase with dual roles in metamorphosis and innate immunity},
  volume = 32,
  year = 2008
}

@article{ISI:000250562900002,
  abstract = {Background: The saprophagous and coprophagous maggots of the drone fly
Eristalis tenax (Insecta, Diptera) have evolved the unique ability to
survive in aquatic habitats with extreme microbial stress such as
drains, sewage pools, and farmyard liquid manure storage pits.
Therefore, they represent suitable models for the investigation of
trade-offs between the benefits resulting from colonization of habitats
lacking predators, parasitoids, or competitors and the investment in
immunity against microbial stress. In this study, we screened for genes
in E. tenax that are induced upon septic injury. Suppression
subtractive hybridization was performed to selectively amplify and
identify cDNAs that are differentially expressed in response to
injected crude bacterial endotoxin (LPS).
Results: Untreated E. tenax maggots exhibit significant antibacterial
activity in the hemolymph which strongly increases upon challenge with
LPS. In order to identify effector molecules contributing to this
microbial defense we constructed a subtractive cDNA library using RNA
samples from untreated and LPS injected maggots. Analysis of 288 cDNAs
revealed induced expression of 117 cDNAs corresponding to 30 novel gene
clusters in E. tenax. Among these immune-inducible transcripts we found
homologues of known genes from other Diptera such as Drosophila and
Anopheles that mediate pathogen recognition (e. g. peptidoglycan
recognition protein) or immune-related signaling (e. g. relish). As
predicted, we determined a high diversity of novel putative
antimicrobial peptides including one E. tenax defensin.
Conclusion: We identified 30 novel genes of E. tenax that were induced
in response to septic injury including novel putative antimicrobial
peptides. Further analysis of these immune- related effector molecules
from Eristalis may help to elucidate the interdependency of ecological
adaptation and molecular evolution of the innate immunity in Diptera.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Altincicek, Boran and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/26ee1a40dde09af425434995f81994514/ifzappliedentomol},
  interhash = {df215b895ea51f0d8fd01cfa1ff7b26d},
  intrahash = {6ee1a40dde09af425434995f81994514},
  issn = {1471-2164},
  journal = {BMC GENOMICS},
  keywords = {IFZ imported},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Analysis of the immune-inducible transcriptome from microbial stress resistant, rat-tailed maggots of the drone fly Eristalis tenax},
  volume = 8,
  year = 2007
}

@article{ISI:000246391800180,
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Wedde, M. and Altincicek, B. and Vilcinskas, A.},
  biburl = {http://www.bibsonomy.org/bibtex/23699171cfc24d6aeafd09f8a82c3455d/ifzappliedentomol},
  interhash = {80ebaf7e525646cbd11eb2970f743343},
  intrahash = {3699171cfc24d6aeafd09f8a82c3455d},
  issn = {1536-2442},
  journal = {JOURNAL OF INSECT SCIENCE},
  keywords = {IFZ imported},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Genomic and proteomic analysis of innate immunity in the greater wax moth Galleria melonella},
  volume = 7,
  year = 2007
}

@article{ISI:000243366400013,
  abstract = {The insect metalloproteinase inhibitor (IMPI) from the greater wax
moth, Galleria mellonella, represents the first and to date only
specific inhibitor of microbial metalloproteinases reported from
animals. Here, we report on the characterization including carbohydrate
analysis of two recombinant constructs encoded by impi cDNA either
upstream or downstream of the furin cleavage site identified. rIMPI-1,
corresponding to native IMPI purified from hemolymph, is encoded by the
N-terminal part of the impi sequence, whereas rIMPI-2 is encoded by its
C-terminal part. rIMPI-1 is glycosylated at N48 with GIcNAc2Man3,
showing fucosylation to different extents. Similarly, rIMPI-2 is
glycosylated at N149 with GIcNAc2Man3, but is fully fucosylated.
rIMPI-1 represents a promising template for the design of
second-generation antibiotics owing to its specific activity against
thermolysin-like metalloproteinases produced by human pathogenic
bacteria such as Vibrio vulnificus. In contrast, rIMPI-2 does not
inhibit bacterial metalloproteinases, but is moderately active against
recombinant human matrix metalloproteinases (MMPs). Both microbial
metalloproteinases and MMPs induce expression of the impi gene when
injected into G. mellonella larvae. These findings provide evidence
that the impi gene encodes two distinct inhibitors, one inhibiting
microbial metalloproteinases and contributing to innate immunity, the
other putatively mediating regulation of endogenous MMPs during
metamorphosis.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Wedde, Marianne and Weise, Christoph and Nuck, Rolf and Altincicek, Boran and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/2fddf2ecc186c2a481f183acfc0fdeffd/ifzappliedentomol},
  interhash = {68b986571f1749b60a5376ddcf4154f1},
  intrahash = {fddf2ecc186c2a481f183acfc0fdeffd},
  issn = {1431-6730},
  journal = {BIOLOGICAL CHEMISTRY},
  keywords = {Galleria_mellonella IFZ innate_immunity insects matrix metalloproteinases microbial_metalloproteinases protein_glycosylation},
  number = 1,
  pages = {119-127},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {The insect metalloproteinase inhibitor gene of the lepidopteran Galleria mellonella encodes two distinct inhibitors},
  volume = 388,
  year = 2007
}

@article{ISI:000247707400008,
  abstract = {In this study, we report the analysis of the immune-related
transcriptome from an apterygote insect, the firebrat Thermobia
domestica (Zygentoma, Lepismatidae), which currently emerges as a
suitable model insect for evolutionary and developmental studies. The
suppression subtractive hybridization method was used for targeted
screening of genes that are up-regulated in response to injected
bacterial lipopolysaccharide (LPS). A subtracted cDNA library enriched
in immune-inducible genes was constructed and analysis of 288 cDNAs
resulted in identification of 26 novel genes in T. domestica. Among
these immune-related transcripts we found homologues of genes from
other insects which are involved in the regulation of signaling
cascades and six novel putative antimicrobial peptides. The identified
genes implicate the presence of sophisticated regulatory mechanisms in
insect immune signaling and give insight into evolutionarily conserved
features of insect innate immunity. (c) 2007 Elsevier Ltd. All rights
reserved.},
  added-at = {2008-06-04T15:31:00.000+0200},
  author = {Altincicek, Boran and Vilcinskas, Andreas},
  biburl = {http://www.bibsonomy.org/bibtex/21dfc5d0de362c617a19490fecab1c469/ifzappliedentomol},
  interhash = {6a6212eb87c2c6d2ac0aa983e8a9573d},
  intrahash = {1dfc5d0de362c617a19490fecab1c469},
  issn = {0965-1748},
  journal = {INSECT BIOCHEMISTRY AND MOLECULAR BIOLOGY},
  keywords = {IFZ Thermobia_domestica apterygote_insects defensin innate_immunity},
  number = 7,
  pages = {726-731},
  timestamp = {2008-06-04T15:31:00.000+0200},
  title = {Identification of immune-related genes from an apterygote insect, the firebrat Thermobia domestica},
  volume = 37,
  year = 2007
}