دورية أكاديمية
Aerodynamics and motor control of ultrasonic vocalizations for social communication in mice and rats.
| العنوان: | Aerodynamics and motor control of ultrasonic vocalizations for social communication in mice and rats. |
|---|---|
| المؤلفون: | Håkansson J; Department of Biology, University of Southern Denmark, 5230, Odense M, Denmark., Jiang W; Department of Mechanical Engineering, University of Maine, Orono, ME, 04469, USA., Xue Q; Department of Mechanical Engineering, University of Maine, Orono, ME, 04469, USA., Zheng X; Department of Mechanical Engineering, University of Maine, Orono, ME, 04469, USA., Ding M; Department of Orthopaedic Surgery and Traumatology, Odense University Hospital, 5000, Odense C, Denmark.; Department of Clinical Research, University of Southern Denmark, 5000, Odense C, Denmark., Agarwal AA; Department of Engineering, University of Cambridge, Cambridge, CB2 1TN, UK., Elemans CPH; Department of Biology, University of Southern Denmark, 5230, Odense M, Denmark. coen@biology.sdu.dk. |
| المصدر: | BMC biology [BMC Biol] 2022 Jan 07; Vol. 20 (1), pp. 3. Date of Electronic Publication: 2022 Jan 07. |
| نوع المنشور: | Journal Article; Research Support, Non-U.S. Gov't |
| اللغة: | English |
| بيانات الدورية: | Publisher: BioMed Central Country of Publication: England NLM ID: 101190720 Publication Model: Electronic Cited Medium: Internet ISSN: 1741-7007 (Electronic) Linking ISSN: 17417007 NLM ISO Abbreviation: BMC Biol Subsets: MEDLINE |
| أسماء مطبوعة: | Original Publication: [London] : BioMed Central, c2003- |
| مواضيع طبية MeSH: | Ultrasonics* , Vocalization, Animal*/physiology, Animals ; Communication ; Mice ; Rats |
| مستخلص: | Background: Rodent ultrasonic vocalizations (USVs) are crucial to their social communication and a widely used translational tool for linking gene mutations to behavior. To maximize the causal interpretation of experimental treatments, we need to understand how neural control affects USV production. However, both the aerodynamics of USV production and its neural control remain poorly understood. Results: Here, we test three intralaryngeal whistle mechanisms-the wall and alar edge impingement, and shallow cavity tone-by combining in vitro larynx physiology and individual-based 3D airway reconstructions with fluid dynamics simulations. Our results show that in the mouse and rat larynx, USVs are produced by a glottal jet impinging on the thyroid inner wall. Furthermore, we implemented an empirically based motor control model that predicts motor gesture trajectories of USV call types. Conclusions: Our results identify wall impingement as the aerodynamic mechanism of USV production in rats and mice. Furthermore, our empirically based motor control model shows that both neural and anatomical components contribute to USV production, which suggests that changes in strain specific USVs or USV changes in disease models can result from both altered motor programs and laryngeal geometry. Our work provides a quantitative neuromechanical framework to evaluate the contributions of brain and body in shaping USVs and a first step in linking descending motor control to USV production. (© 2021. The Author(s).) |
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| فهرسة مساهمة: | Keywords: Acoustic communication; Bioacoustics; Rodents; Speech; Vocal production |
| تواريخ الأحداث: | Date Created: 20220108 Date Completed: 20220414 Latest Revision: 20240405 |
| رمز التحديث: | 20240405 |
| مُعرف محوري في PubMed: | PMC8742360 |
| DOI: | 10.1186/s12915-021-01185-z |
| PMID: | 34996429 |
| قاعدة البيانات: | MEDLINE |
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