GSK343 decreased tumor stemness. by Laura V. Bownes (10276762)

“…Treatment with GSK343 significantly decreased tumorsphere formation by both the COA3 (A) and COA6 (B) cells, representing a decrease in stem cell-like phenotype. …”

Third. by Cuicui Liu (1496260)

Novel agent DMAMCL suppresses osteosarcoma growth and decreases the stemness of osteosarcoma stem cell by Gen Ba (6440999)

Decrease of injuries. by Petr Fulin (8380320)

Subjects:

The results of the third round of redundancy screening. by Qili Deng (18098437)

The PRAME-AS knockout cells showed a decrease in migration, proliferation, stemness, and viability. by Zahra Hosseininia (22265113)

Functional dissimilarity promotes tree stem radial growth by decreasing water deficit by Hongtu Zhang (12532081)

“…</p> <p>Functional dissimilarity promotes tree stem radial growth by decreasing water deficit </p>…”

KH176m selectively decreases prostate cancer stem cell population. by Xiaolan Jiang (408276)

Decrease of admissions and lead diagnoses. by Petr Fulin (8380320)

Subjects:

Dynamics of net spillage in the third stage (post epidemic). by Cuicui Liu (1496260)

Running increased neural stem cell proliferation in the dentate gyrus, but did not decrease inflammation. by Kaja Falkenhain (9317016)

Data used to generate Fig 1. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 6. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 2. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 3. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 5. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 2. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 6. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Fig 4. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”

Data used to generate Table 5. by Pattamaporn Kittayapong (289542)

“…For wild-type <i>Ae. aegypti</i>, X-ray irradiation at the doses from 3 Gy decreased the development of the first-instar larvae and increased the development of the third-instar larvae but there was no effect on pupae. …”