Downregulated proteins in TAU Pro-Leu. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Downregulated proteins in TAU Pro x TAU 3AAG. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Upregulated proteins in TAU Pro-Leu. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Upregulated proteins in TAU Pro x TAU 3AAG. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Downregulated proteins in TAU Pro-Ile. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Fuzzy c-mean clustering. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 7—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 4—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 2—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Venn diagram—Down-regulated proteins. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Venn diagram—Up-regulated proteins. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 3—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 5—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Protein Groups Matrix. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Upregulated proteins in TAU Pro-Ile. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 1—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Cluster 6—Gene Ontology. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Downregulated proteins in TAU Pro-Val. by Janaina de Freitas Nascimento (3849415)

“…The differentiation of epimastigote forms into metacyclic trypomastigotes within the insect vector is crucial for the parasite’s life cycle progression. Factors influencing this process, including temperature, pH, and nutritional stress, along with specific metabolite availability, play a pivotal role. …”

Image 1_COP1 drives renal cell carcinoma progression by targeting ACSL4 for ubiquitin-mediated degradation and inhibiting ferroptosis.tif by Yuxiao Zheng (8334027)

“…Background<p>Renal cell carcinoma (RCC) progression is closely linked to dysregulation of the ubiquitin-proteasome system, particularly aberrant ubiquitination processes governing protein degradation and cell cycle control. …”

(a) The impact of changing the epoch at which the proximity factor for infection clusters is activated on the validation infection coverage and <i>F</i>₁ measure. by Ibrahim Almakky (22530341)