Qiaoran Li scite author profile

Across phyla, body size is linked to climate. For example, rearing fruit flies at lower temperatures results in bigger body sizes than those observed at higher temperatures. The underlying molecular basis of this effect is poorly understood. Here we provide evidence that the temperature-dependent regulation of Drosophila body size depends on a group of cold-sensing neurons and insulin-producing cells (IPCs). Electrically silencing IPCs completely abolishes the body size increase induced by cold temperature. IPCs are directly innervated by cold-sensing neurons. Stimulation of these cold-sensing neurons activates IPCs, promotes synthesis and secretion of Drosophila insulin-like peptides and induces a larger body size, mimicking the effects of rearing the flies in cold temperature. Taken together, these findings reveal a neuronal circuit that mediates the effects of low temperature on fly growth.

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Mechanism for food texture preference based on grittiness

Montell

2021

Current Biology

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Selection and identification of novel peptides specifically targeting human cervical cancer

Liu

Peng

et al. 2018

Amino Acids

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Cervical cancer is the second most commonly diagnosed cancer and the third leading cause of cancer deaths among females in underdeveloped countries. This study aimed to identify several novel cervical cancer-specific targeting peptides (CSPs) to provide new methods for the effective diagnosis and treatment of cervical cancer. Peptide library screening in vivo was performed on human cervical cancer xenografts with Ph.D.™-12 and C7C phage display peptide libraries. Two specific peptide sequences (GDALFSVPLEVY and KQNLAEG), which were enriched in tumors, were screened, and respectively, named CSP-GD and CSP-KQ through three rounds of biopanning. The in vivo tumor-targeting ability of these peptides was identified by injecting them into mice with cervical cancer xenograft. CSPs were compounded and labeled with fluorescein isothiocyanate (FITC). The specificity and affinity of FITC-CSPs were evaluated in human cervical cancer cell lines and tissue microarrays in vitro by immunofluorescent staining. Results showed that FITC-CSP-GD and FITC-CSP-KQ evidently and specifically bound to the cell membrane and cytoplasm of SiHa, ME-180, and C-33A cells in vitro. In human cervical cancer tissue, FITC-CSP-GD and FITC-CSP-KQ strongly targeted human cervical adenocarcinoma and cervical squamous cell carcinoma tissues, respectively. A bright FITC signal was located mainly on the cell membrane and cytoplasm of tumor cells. In conclusion, the novel 12-residue peptide CSP-GD and 7-residue peptide CSP-KQ could specifically target human cervical cancer and may have the potential to be used in the diagnosis and targeted therapy of cervical cancer.

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Temperature and Sweet Taste Integration in Drosophila

DeBeaubien

Sokabe

et al. 2020

Current Biology

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Temperature and Sweet Taste Integration in Drosophila

Li¹,

DeBeaubien²,

Sokabe³

et al. 2020

Current Biology

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Qiaoran Li

Cold-sensing regulates Drosophila growth through insulin-producing cells

Mechanism for food texture preference based on grittiness

Selection and identification of novel peptides specifically targeting human cervical cancer

Temperature and Sweet Taste Integration in Drosophila

Temperature and Sweet Taste Integration in Drosophila

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