Deprecated!
This application is deprecated. Please use the latest version of the tool here.
Please cite:
I. S. Vlachos, M. D. Paraskevopoulou, D. Karagkouni, G. Georgakilas, T. Vergoulis, I. Kanellos, I-L. Anastasopoulos, S. Maniou, K. Karathanou, D. Kalfakakou, A. Fevgas, T. Dalamagas and A. G. Hatzigeorgiou. DIANA-TarBase v7.0: indexing more than half a million experimentally supported miRNA:mRNA interactions. Nucl. Acids Res. (2014)
Data Download:
DIANA-TarBase v7 is available for scientific non-profit and non-commercial use! Download TarBase v7 by following this link
|
||||||||
Related Pathways
Publication year
Prediction score
Filters
Selected:
Species: -
Regulation: -
Validation: -
Validated: -
Sources: -
Methods: -
Species: -
Regulation: -
Validation: -
Validated: -
Sources: -
Methods: -
Remove all
Species
Method Type
Method
Regulation type
Validation type
Validated as
Source
Publication year
Prediction score
Loading... |
Wait until the result set is completed... |
Gene name
miRNA name
Methods
Pred.Score
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr10:96060676-96060700 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr10:68342138-68342161 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr20:33676438-33676458 (3UTR)
Luciferase Reporter Assay
POSITIVE
DIRECT
TarBase 6.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr17:62033858-62033876 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr9:33270686-33270703 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr12:56160072-56160099 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr16:29810331-29810352 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr13:98006316-98006344 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
VIM (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr10:17235260-17235281 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
ERBB3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr12:56102327-56102349 (UNKNOWN)
Dual Luciferase Reporter Assay
CTCCTGCTCCCTGTGGCACCATTACTCTCCATATCCCTTCC
GGAAGGGATATGGAGAGTAATGTGAAGAAGCTGAGGAATG
Luciferase Reporter Assay
POSITIVE
DIRECT
TarBase 6.0
ELMO2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr20:46383436-46383461 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
NECAP1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr12:8092737-8092760 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
DNM1L (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr12:32722578-32722604 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Location
Method
Result
Regulation
Valid. type
Source
chr12:32722578-32722604 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
PREP (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr6:105282474-105282496 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
HSPA8 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr11:123057681-123057703 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
chr11:123059723-123059745 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
NUP37 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
C5orf22 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
ITPK1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
CIRBP (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MVK (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
EIF3E (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
FGFR1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PHF5A (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MKNK2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr19:2039298-2039318 (UNKNOWN)
LCL-BACD3 lymphoblastoid cells infected by EBV B95-8 BACmid. LCL-BAC-D1 cells were generated from the same donor as LCL-BAC and are mutationally inactivated for miR-BHRF1-3 expression. antibody: Anti-Ago2 (clone 9E8).
PAR-CLIP
POSITIVE
DIRECT
Tarbase 7.0
LEPREL1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
BAIAP2L1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
C4orf27 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
AURKA (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RBX1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
UBE2D3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PSMD7 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
BCCIP (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
CDC23 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
GAR1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
LYPLA2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PDRG1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
TOMM22 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RPRD1B (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
ELOVL5 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
XYLT2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RAB11A (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MNAT1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
GPRC5A (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
POLD3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
CDV3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
ASNS (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PFN2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PDLIM1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
SP4 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr7:21513228-21513250 (UNKNOWN)
LCL-BACD3 lymphoblastoid cells infected by EBV B95-8 BACmid. LCL-BAC-D1 cells were generated from the same donor as LCL-BAC and are mutationally inactivated for miR-BHRF1-3 expression. antibody: Anti-Ago2 (clone 9E8).
PAR-CLIP
POSITIVE
DIRECT
Tarbase 7.0
BLVRA (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr7:43807051-43807079 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
Location
Method
Result
Regulation
Valid. type
Source
chr7:43807051-43807079 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
CTTN (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
FKBP1A (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
ERBB3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr12:56102075-56102669 (3UTR)
CTCCTGCTCCCTGTGGCAC
CCCGACTTCCCTTTGTGTAAAATG
Luciferase Reporter Assay
POSITIVE
DIRECT
TarBase 6.0
Location
Method
Result
Regulation
Valid. type
Source
chr12:56102075-56102669 (3UTR)
CTCCTGCTCCCTGTGGCAC
CCCGACTTCCCTTTGTGTAAAATG
Luciferase Reporter Assay
POSITIVE
DIRECT
TarBase 6.0
EED (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PSME2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
EIF3B (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr7:2378716-2378738 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
TIMP2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr17:78855071-78855099 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
CTSC (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr11:88294394-88294420 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 3 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
CTSC (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PABPC4 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr1:39567789-39567814 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
ACBD5 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr10:27240605-27240629 (UNKNOWN)
LCL-BACD3 lymphoblastoid cells infected by EBV B95-8 BACmid. LCL-BAC-D1 cells were generated from the same donor as LCL-BAC and are mutationally inactivated for miR-BHRF1-3 expression. antibody: Anti-Ago2 (clone 9E8).
PAR-CLIP
POSITIVE
DIRECT
Tarbase 7.0
DPM1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MTIF2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
AAGAB (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
DCBLD2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
SNAI2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MRPS33 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
AREG (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
FOXM1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RPL26L1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RAD51 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
GTF2H1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MTHFD2 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
NDRG3 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
TPD52L1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
AGO2-RN co-IP
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
UBE2T (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
LTA4H (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
RAB35 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
TIMM9 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
MRPL4 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr19:10258260-10258281 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
NFKB1 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr4:102537865-102537889 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
GGCT (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
ZNF638 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
chr2:71426985-71427005 (UNKNOWN)
B cell lines infected by KSHV virus. AGO Immunoprecipitation using anti-Argonaute 2A8. 4 replicates available
HITS-CLIP
POSITIVE
DIRECT
Tarbase 7.0
DUSP22 (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
PICALM (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0
POLR2B (hsa)
hsa-miR-205-5p
-
Publication
Methods
Tissue
Cell line
Tested cell line
Exp. condition
Location
Method
Result
Regulation
Valid. type
Source
UNKNOWN
Our findings reveal novel functional roles and targets of miR-205 in human cervical cancer, which may provide new insights about its role in cervical carcinogenesis and its potential value for clinical diagnosis.
AGO-IP
POSITIVE
INDIRECT
Tarbase 7.0