Director: John Kappes, Ph.D.
Co-Director: Charles O. Elson, M.D.
Access
Requests from Center investigators will be accepted on a first-come, first-served basis, subject to the requirement that the research be appropriate for the Center project and likely to contribute to its success.
Microbiota Microarray List April, 2012
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Relation to Human Microbiome Project genome sequences. |
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|
Code |
% identity |
Name |
function |
Primary Species |
Phylum |
Class |
|
rIB19 |
36 |
UvrD/REP helicase |
transc/ transl |
Propioni-bacterium acnes |
Actinobacteria |
Actino- bacteria |
|
14-2 |
80 |
isolate 14-2 surface extract – flagellin |
motility |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
3_1_57 |
100 |
Flagellin |
motility |
Lachnospiraceae 3_1_57 |
Firmicutes |
Clostridia |
|
BF30S |
30S riboprotein |
transc/ transl |
Bacteroides fragilis |
Bacteroidetes |
Bacteroidia |
|
|
Btheta |
87 |
hypothetical protein |
other/ unknown |
Bacteroides thetaiotaomicron |
Bacteroidetes |
|
|
CBir1 |
83 |
Flagellin |
motility |
Butyrivibrio fibriosolvens |
Firmicutes |
Clostridia |
|
CBir11 |
46 |
hypothetical protein/ flagellin |
motility |
Roseburia inulinivorans |
Firmicutes |
Clostridia |
|
CBir14 |
90 |
GAPDH |
metabolism |
Lactobacillus salivarius |
Firmicutes |
Bacilli |
|
CBir19 |
78 |
ABC transporter.ATP-binding protein |
other/ unknown |
Bacteroides vulgatus |
Bacteroidetes |
Bacteroidia |
|
CBir23 |
85 |
elongation factor 1A |
transc/ transl |
Alistepes shahii |
Bacteroidetes |
Bacteroidia |
|
Cbir45 |
59 |
hypothetical protein/ glycosyl hydrolase |
metabolism |
Bacteroides eggerthii |
Bacteroidetes |
Bacteroidia |
|
CBir5 |
63 |
methyl-accepting chemotaxis protein |
motility |
Helicobacter cinaedi |
Proteobacteria |
Delta/ Epsilon |
|
CBir56 |
60 |
methyl-accepting chemotaxis protein |
motility |
Helicobacter canadensis |
Proteobacteria |
Delta/ Epsilon |
|
CBir63 |
47 |
Ig-like surface protein/ hypothetical protein |
other/ unknown |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
CBir66 |
66 |
Flagellin/ hypothetical protein |
motility |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
CBir8 |
90 |
elongation factor Tu |
transc/ transl |
Tannerella sp. |
Bacteroidetes |
Bacteroidia |
|
CT-B |
n/a |
cholera toxin B subunit |
other/ unknown |
Vibrio cholerae |
Proteobacteria |
Gamma |
|
EF20 |
100 |
Sal A |
other/ unknown |
Enterococcus faecalis |
Firmicutes |
Bacilli |
|
Fla 2 |
72 |
flagellin 2 from A4 isolate |
motility |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
Fla 3 |
81 |
flagellin 3 from A4 isolate |
motility |
Roseburia inulinivorans |
Firmicutes |
Clostridia |
|
Fla X |
56 |
flagellin |
motility |
Roseburia inulinivorans |
Firmicutes |
Clostridia |
|
Flic2 |
0 |
flagellin |
motility |
Candidatus arthromitus (SFB) |
Firmicutes |
Clostridia |
|
Keto |
metabolism |
Bacteroides fragilis |
Bacteroidetes |
Bacteroidia |
||
|
MDR247 |
54 |
adenine deaminase |
metabolism |
Clostridium bolteae |
Firmicutes |
Clostridia |
|
MDR254 |
73 |
flagellin protein |
motility |
Flavonifractor plautii |
Firmicutes |
Clostridia |
|
MDR90 |
66 |
collagen adhesion protein |
other/ unknown |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
OmpC |
100 |
OmpC from UNC101 E. coli |
other/ unknown |
Escherichia coli |
Proteobacteria |
Gamma |
|
rIB10 |
48 |
Nucleotidyltransferase/ hypothetical |
transc/ transl |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
rIB12 |
60 |
homoserine dehydrogenase |
metabolism |
Flavonifractor plautii |
Firmicutes |
Clostridia |
|
rIB13 |
98 |
protease IV /SppA |
other/ unknown |
Bacteroides vulgatus |
Bacteroidetes |
Bacteroidia |
|
rIB14 |
84 |
helicase |
transc/ transl |
Ruminococcus sp |
Firmicutes |
Clostridia |
|
rIB15 |
51 |
amidohydrolase |
metabolism |
Clostridium difficile |
Firmicutes |
Clostridia |
|
rIB16 |
74 |
pyruvate synthase |
metabolism |
Flavonifractor plautii |
Firmicutes |
Clostridia |
|
rIB17 |
39 |
NlpC/P60 |
other/ unknown |
Flavonifractor plautii |
Firmicutes |
Clostridia |
|
rIB18 |
30 |
surface array protein |
other/ unknown |
Campylobacter showae |
Proteobacteria |
Epsilon |
|
rIB2 |
61 |
SAM domain protein |
transc/ transl |
Blautia hansenii |
F&B |
|
|
rIB20 |
0 |
ABC transporter |
other/ unknown |
Verminephrobacter eiseniae |
Proteobacteria |
Beta |
|
rIB4 |
63 |
relaxase |
transc/ transl |
Clostridium asparagiforme |
Firmicutes |
Clostridia |
|
rIB5 |
37 |
hypothetical protein – cytoplasmic |
other/ unknown |
Erysipelotrichaceae 3-1-53 |
F & P, chordata |
Mollicutes |
|
rIB6 |
47 |
hypothetical protein/ bIF-2 |
transc/ transl |
Clostridium leptup |
Firmicutes |
Clostridia |
|
rIB7 |
76 |
malonyl CoA carrier |
metabolism |
Bacteroides sp. |
Bacteroidetes |
|
|
rIB8 |
59 |
hypothetical protein/ glycosyltransferase |
metabolism |
Lachnospiraceae 3-1-57 |
Firmicutes |
Clostridia |
|
rIB9 |
45 |
methyl-accepting chemotaxis protein |
motility |
Roseburia intestinalis |
Firmicutes |
Clostridia |
|
SFliC |
n/a |
Salomonella dublin Flagellin |
motility |
Salmonella dublin |
Proteobacteria |
Gamma |
|
UFliC |
100 |
FliC from UNC101 E. coli |
motility |
Escherichia coli |
Proteobacteria |
Gamma |
|
Proteins are resuspended at 0.2 mg/ml in 1mM Tris, 0.1% SDS. The proteins are then be printed onto FAST 16pad slides (Whatman) using a MicroGrid II robot (Genomic Solutions). The printed slides are allowed to air-dry over night, then blocked with Protein Array Blocking Buffer (Whatman). Individual pads on the array are incubated with sera and secondarily with Alexa 647-anti-human IgG and Alexa 546- anti-human IgA. The resulting fluorescent slides are analyzed using a Genepix 4000B dual laser microarray reader (Molecular Devices) and Genepix Pro 6.0 software. |
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The software determines the net median pixel intensities for each individual feature (antigen spot) from a set of 10 measurements/feature. A median net digital fluorescence unit (DFU) for each feature represents the median values from 8 replicate antigen features on each array. A software program called “Significance Analysis of Microarrays” (SAM) (14, 23), which was developed at Stanford University will be applied to the data to identify antigens with statistically significant differences in antibody reactivity between groups. SAM computes a statistic for each feature, measuring the strength of the relationship between the feature intensity and the group. The software estimates a false discovery rate (FDR), i.e., a false positive rate, for each antigen by permuting the repeated measurements between groups. SAM results can be further analyzed using software called Cluster and Cluster results can be displayed using Tree View. |
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Retroviral Unit (Dr. Kappes)
- Molecular construction of gene expression vectors (preparation of DNA; restriction analysis of DNA; insertion of gene; confirmation of gene expression; large-scale [Maxi prep] production of DNA.
- Validation of vector trans-gene expression (DNA transfection and confirmation of gene expression.
- Packaging of the vector and cryopreservation of the virus vector stock (preparation of DNAs for packaging and Env constructs; transfection of mammalian cells; collection and preparation of culture supernatant [virus vector]; cryostorage).
- Concentration of the virus vector stock (large-scale transfection of mammalian cells; collection and preparation of culture supernatant [virus vector]; cryostorage).
- Generation and titration of GFP-virions (preparation of DNA; large-scale transfection of mammalian cells; collection and preparation of culture supernatant [virus vector]; cryostorage).
- Generation of HIV-1 stocks.
- Infectivity titration of HIV-1 stocks.
- Production of a stable gene-expressing cell line (packaging of vector DNA; transduction of mammalian cells; selection).
- Production of a clonal gene-expressing cell line (packaging of vector DNA; transduction of mammalian cells; selection; limiting dilution cloning; expansion of [~25] clones).
- Production of a shRNA-expressing cell line.
- Confirmation of gene-expression cell line (analysis of cell line for trans gene expression by FACS or immunofluorescence, etc.).
Bacterial Unit (Dr. Elson)
- Analysis of bacterial flora via 16S ribosomal DNA for validation of monocolonization or germ-free status (PCR and agarose gel; PCR and DGGE; Elution of bands, cloning, and sequencing).
- Collection, 16s RNA characterization and cryopreservation of bacteria.
- Cloning of genes for bacterial expression (PCR, cloning, screening, sequencing).
- Expression and provision of bacterial protein relevant to inflammatory bowel disease, per protein.
- Quantitation of microbial groups, for up to 25 samples, by quantitative PCR.
- Printing antigen microarrays, per slide.