PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 28035227-1 2016 INTRODUCTION: One of two main mechanisms of resistance in tetracycline-resistant Neisseria gonorrhoeae (TRNG) is associated with the presence of TetM protein responsible for actively blocking of the tetracycline target site in the 30S ribosomal subunit. Tetracycline 58-70 TetM Neisseria gonorrhoeae 145-149 28035227-1 2016 INTRODUCTION: One of two main mechanisms of resistance in tetracycline-resistant Neisseria gonorrhoeae (TRNG) is associated with the presence of TetM protein responsible for actively blocking of the tetracycline target site in the 30S ribosomal subunit. Tetracycline 199-211 TetM Neisseria gonorrhoeae 145-149 16189114-1 2005 Neisseria gonorrhoeae becomes resistant to tetracycline by two major mechanisms: expression of a plasmid-encoded TetM protein and mutations in endogenous genes (chromosomally mediated resistance). Tetracycline 43-55 TetM Neisseria gonorrhoeae 113-117 16309425-3 2005 The results showed that reserpine affects the MIC of tetracycline at least 4-fold in all isolates, including those containing the tetM gene. Tetracycline 53-65 TetM Neisseria gonorrhoeae 130-134 32977759-15 2020 All the isolates expressing TetM were tetracycline resistant (MIC> 1 mg/L) and had increased doxycycline MICs (up to 96 mg/L). Tetracycline 38-50 TetM Neisseria gonorrhoeae 28-32 34094619-6 2021 Ten of 21 isolates were resistant to penicillin, ciprofloxacin and tetracycline, due mainly to the presence of the blaTEM gene, the S91F mutation in the gyrA gene and the tetM gene, respectively. Tetracycline 67-79 TetM Neisseria gonorrhoeae 171-175 8553150-11 1995 The 25.2 MDa conjugative plasmid carrying the tetM resistance determinant was readily demonstrated in 11 Botswana/Namibia isolates exhibiting high-level resistance to tetracycline (MICs > or = 16 micrograms/ml). Tetracycline 167-179 TetM Neisseria gonorrhoeae 46-50 3134850-0 1988 High-level tetracycline resistance resulting from TetM in strains of Neisseria spp., Kingella denitrificans, and Eikenella corrodens. Tetracycline 11-23 TetM Neisseria gonorrhoeae 50-54 3134850-1 1988 Similar to Neisseria gonorrhoeae, tetracycline-resistant isolates of N. meningitidis, Kingella denitrificans, and Eikenella corrodens contained 25.2-megadalton plasmids carrying the TetM determinant. Tetracycline 34-46 TetM Neisseria gonorrhoeae 182-186 3134850-2 1988 In contrast, tetracycline-resistant N. subflava biovar perflava-N. sicca and N. mucosa isolates carried the TetM determinant in the chromosome. Tetracycline 13-25 TetM Neisseria gonorrhoeae 108-112 3132092-2 1988 The resistance in each species is due to the acquisition of 25.2-megadalton conjugative plasmids that carry the tetracycline resistance determinant TetM. Tetracycline 112-124 TetM Neisseria gonorrhoeae 148-152 3099640-0 1986 High-level tetracycline resistance in Neisseria gonorrhoeae is result of acquisition of streptococcal tetM determinant. Tetracycline 11-23 TetM Neisseria gonorrhoeae 102-106 32977759-18 2020 CONCLUSION: High-level gonococcal penicillin and tetracycline resistance in the sampled Kenyan regions was found to be mediated by plasmid borne blaTEM and tetM genes. Tetracycline 49-61 TetM Neisseria gonorrhoeae 156-160