Mounting behavior is detected easily. A mounting behavior detection system includes a mounting-side apparatus, a mounted-side apparatus, and a charging apparatus. The mounting-side apparatus is attached to the neck or the chin of a first domestic animal, is configured to emit a transmission signal, and includes a battery. The mounted-side apparatus is attached at any position from the back to the tail of a second domestic animal and is configured to transmit a response signal in response to the transmission signal. The charging apparatus is configured to transmit power wirelessly to the battery.

A transplantation method to increase the establishment rate of human tumors in immunodeficient mice. A pocket is created in the mouse and the tumor and surrounding tissues are implanted in the pocket. The pocket is left open to oxygenate the tumor and surrounding tissues.

A transplantation method to increase the establishment rate of human tumors in immunodeficient mice. A pocket is created in the mouse and the tumor and surrounding tissues are implanted in the pocket. The pocket is left open to oxygenate the tumor and surrounding tissues.

The invention relates to methods of increasing the genetic progress of a line, breed or herd of swine through the use of sex-selected sperm cells in artificial insemination techniques. The invention also encompasses methods of artificially inseminating a swine via deep intrauterine catheter or via a laparoscopic procedure, which allow the use of reduced doses of sex-selected sperm cells.

The invention relates to methods of increasing the genetic progress of a line, breed or herd of swine through the use of sex-selected sperm cells in artificial insemination techniques. The invention also encompasses methods of artificially inseminating a swine via deep intrauterine catheter or via a laparoscopic procedure, which allow the use of reduced doses of sex-selected sperm cells.

A model that closely resembles human excessive myopia can be prepared by mounting a minus lens (2) and a protector (4) to a juvenile mouse, the minus lens having an angle and a width adjustable in response to growth of the mouse. Further, this model analysis shows that myopia induction causes endoplasmic reticulum stress in a sclera and the endoplasmic reticulum stress induces myopia. Furthermore, it is revealed that an endoplasmic reticulum stress suppressant, particularly, phenylbutyrate and tauroursodeoxycholic acid act as a myopia prevention/suppression agent.

A model that closely resembles human excessive myopia can be prepared by mounting a minus lens (2) and a protector (4) to a juvenile mouse, the minus lens having an angle and a width adjustable in response to growth of the mouse. Further, this model analysis shows that myopia induction causes endoplasmic reticulum stress in a sclera and the endoplasmic reticulum stress induces myopia. Furthermore, it is revealed that an endoplasmic reticulum stress suppressant, particularly, phenylbutyrate and tauroursodeoxycholic acid act as a myopia prevention/suppression agent.

This disclosure describes exemplary embodiments of a method of creating a YY animal broodstock, preferably in a single generation, wherein the broodstock includes only sperm-producing YY males and egg-producing YY males, the method comprising the steps of: (a) creating YY males via androgenesis; (b) exposing selected ones of the YY males created in step (a) to a feminizing hormone; and (c) identifying sperm-producing YY males and egg-producing YY males from among the YY males created in steps (a) and (b). In other embodiments, the method further comprises: (d) repeating steps (a) through (c) N times in order to produce N unrelated families of sperm-producing YY males and egg-producing YY males; and (e) cross-breeding various ones of the unrelated families produced in step (d) in order to produce a genetically-diverse YY progeny. In some embodiments, N may be about 60.

This disclosure describes exemplary embodiments of a method of creating a YY animal broodstock, preferably in a single generation, wherein the broodstock includes only sperm-producing YY males and egg-producing YY males, the method comprising the steps of: (a) creating YY males via androgenesis; (b) exposing selected ones of the YY males created in step (a) to a feminizing hormone; and (c) identifying sperm-producing YY males and egg-producing YY males from among the YY males created in steps (a) and (b). In other embodiments, the method further comprises: (d) repeating steps (a) through (c) N times in order to produce N unrelated families of sperm-producing YY males and egg-producing YY males; and (e) cross-breeding various ones of the unrelated families produced in step (d) in order to produce a genetically-diverse YY progeny. In some embodiments, N may be about 60.

A method for predicting the athletic performance potential of a subject comprising the step of assaying a biological sample from a subject for a genetic variant in linkage disequilibrium with MSTN-66493737 (T/C) SNP. The invention also provides an assay for determining the athletic performance potential of a subject.