Tbx1 regulation of myogenic differentiation in the limb and cranial mesoderm

## Abstract Phospholipase C β~1~ (PLCβ~1~) signaling in both cell proliferation and differentiation has been largely investigated, but its role in myoblast differentiation is still unclear. The C2C12 myogenic cell line has been used in this study in order to find out the role of the two subtypes of

## Abstract Muscles, nerves, and tracheae were examined histologically in clusters of three limbs arising from single mesothoracic leg sockets in the cockroach, __Periplaneta americana.__ The three‐limbed preparations were produced by amputating a normal legand replacing it with a contralateral leg

## Abstract The extent and time course of muscle dedifferentiation was followed histologically in transplanted mesothoracic limbs of the cockroach __Periplaneta americana__. The limbs were grafted to contralateral leg sockets and were oriented such that the anterior‐posterior axis of the graft was

## Abstract Recent studies indicate that one of the major functions of the apical ectodermal ridge (AER) of the embryonic chick limb bud is to maintain mesenchymal cells directly subjacent to it (i.e., cells extending 0.4–0.5 mm from the AER) in a labile, undifferentiated condition. Furthermore, wh

The distribution of myogenic and chondrogenic cells was determined for axolotl limb blastemas at the medium bud stage, before precartilage condensation occurred. Myogenic potential of midstylopod (upper) and distal-zeugopod (lower) amputation level blastemas, divided into distal, proximal-core, and

## NINE FIGURES Much evidence has accumulated in recent years to show that the anterior-limb mesoderm of Amblystoma embryos in the tail-bud stage of development is irreversibly polarized along its anteroposterior (craniocaudal) axis (Harrison, '17, '21; Detwiler, '18, '20; Nicholas, '24; Swett, '2