Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.

Cronobacter sakazakii infection implicates multifaceted neuro-immune regulatory pathways of Caenorhabditis elegans

C. elegans infected with Cronobacter sakazakii have been analyzed primarily at the translational level, especially profiling the differentially regulated proteins involved in neuro-immune signaling pathways. The protein profiling of both control and infected worms using LC-MS analysis revealed a total of 174 proteins in control, 206 in C. sakazakii infected at 24 h, and 172 proteins in control and 226 in C. sakazakii infected at 48 h samples. Authors observed 69 differentially regulated proteins from both control and infected samples.