Gill‐filament ossifications: a possible morphological synapomorphy uniting the families Balitoridae and Cobitidae (Ostariophysi: Cypriniformes)

Ossifications associated with the gill filaments of members of the Balitoridae and Cobitidae are described for the first time. Although gill‐filament ossifications are common in teleosts, similar ossifications were not observed in other members of the order Cypriniformes. Their presence is interpreted as a shared and derived character uniting the families Balitoridae and Cobitidae as a monophyletic group.     

Segmentation and fusion on the midline: Basibranchial homologies in cypriniform fishes

The development and homologies of the median elements of the ventral hyoid and branchial arches of Cypriniformes have been unclear. We compared the developmental morphology of this region across five species (Cycleptus elongatus, Luxilus zonatus, Danio rerio, Devario auropurpureus, and Cobitis striata), representing three of five major clades of cypriniforms. The development of basibranchial 1 is similar in catostomids and cyprinids, where a single, elongate, basihyal + anterior copula divides into separate elements. A gap develops between the posterior end of the basihyal cartilage and the anterior copula in catostomids but in cyprinids (Luxiluszonatus, Danio rerio, and Devarioauropurpureus) there is little separation and the basihyal and basibranchial 1 may grow close together or retain a cartilaginous connection (Danio rerio, several outgroups). In loaches and Gyrinocheilus, the gap posterior to the basihyal has been alternately interpreted as either the absence or posterior displacement of basibranchial 1. Uniquely among examined species, in Cobitis striata, the basihyal cartilage and anterior copula form as separate cartilages and remain distinct throughout development with a prominent gap between the basihyal and most anterior basibranchial, which we interpret as loss of basibranchial 1. In the posterior region associated with branchial arches 4 and 5, all examined species except Danio rerio, which has only a basibranchial 4 cartilage, have separate basibranchial 4 and 5 cartilages in early ontogeny. Basibranchials 4 and 5 remain separate in Cycleptus elongatus, Devario auropurpurea, and Cobitis striata, but fuse in Luxilus zonatus to form a posterior copula. The orientation of basibranchial 4 and 5 cartilages in Cobitis striata is similar to catostomids and cyprinids. The most posterior median element in the branchial arches, the post‐ceratobranchial cartilage, generally forms as a separate cartilage in catostomids but in Cobitis striata is connected with basibranchial 5 cartilage from earliest appearance. J. Morphol., 2012. © 2012 Wiley Periodicals, Inc.     

The chicken NKX2.8 homeobox gene: A novel member of the NK-2 gene family

 We have isolated the chicken homeobox gene NKX2.8, which represents a novel member of the NK-2 gene family. Besides the homeodomain, the NKX2.8 protein contains two other conserved sequences, a TN and an NK2 domain. NKX2.8 is expressed in the ventral foregut, the developing heart, in the epithelial layers of the branchial arches and in the dorsal mesocardium. Thus, its expression overlaps partially, but also differs significantly from another chicken tinman orthologue, the NKX2.5 gene. It is suggestive that NKX2.8 and NKX2.5 play a cooperative role in early heart development. Received: 28 January 1997 / Accepted: 8 February 1997     

Hox gene expression patterns in Lethenteron japonicum embryos--insights into the evolution of the vertebrate Hox code

The Hox code of jawed vertebrates is characterized by the colinear and rostrocaudally nested expression of Hox genes in pharyngeal arches, hindbrain, somites, and limb/fin buds. To gain insights into the evolutionary path leading to the gnathostome Hox code, we have systematically analyzed the expression pattern of the Hox gene complement in an agnathan species, Lethenteron japonicum (Lj). We have isolated 15 LjHox genes and assigned them to paralogue groups (PG) 1-11, based on their deduced amino acid sequences. LjHox expression during development displayed gnathostome-like spatial patterns with respect to the PG numbers. Specifically, lamprey PG1-3 showed homologous expression patterns in the rostral hindbrain and pharyngeal arches to their gnathostome counterparts. Moreover, PG9-11 genes were expressed specifically in the tailbud, implying its posteriorizing activity as those in gnathostomes. We conclude that these gnathostome-like colinear spatial patterns of LjHox gene expression can be regarded as one of the features already established in the common ancestor of living vertebrates. In contrast, we did not find evidence for temporal colinearity in the onset of LjHox expression. The genomic and developmental characteristics of Hox genes from different chordate species are also compared, focusing on evolution of the complex body plan of vertebrates.     

Cardiac and branchial physiology associated with copper accumulation and detoxication in the mytilid mussel Perna viridis (L.)

Acute, sublethal, copper exposures induced bimodal physiological responses in the mytilid mussel Perna viridis. Whole animal studies revealed that copper increased heart rate (mild tachycardia) whilst clearance rates and hence gill cilia were simultaneously inhibited. The inhibitory bioamine dopamine reversed tachycardia, indicating that elevated heart rates were due to nervous (serotonergic) stimulation of the myocytes. The excitatory bioamine 5-hydroxytryptamine failed to reverse copper-induced inhibition of clearance rates, suggesting that mechanical damage or blockage of the cilia rather than overt neurotoxicity was impairing the function of the gill. The digestive diverticula was the major copper-accumulating organ although rapid metal exocytosis was evident when individuals were allowed to depurate in uncontaminated seawater. Waste products are expelled from the digestive diverticula into the intestine and as the rectum passes through the heart, elevated rates of ventricular contraction may facilitate egestion of metal-rich faeces. Elevated cardiac activity during exposure to copper may serve to increase ventricular pulsatile pressure on the rectum for the expulsion of metal-rich faecal inclusions (coproliths) derived from the digestive diverticula lysosomes. This study describes a relationship between the heart, alimentary canal and digestive diverticula lysosomes as a pathway for metal detoxication in mytilid mussels.