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1. Serial block-face scanning electron microscopy of the tail tip of post-metamorphic amphioxus finds novel myomeres with odd shapes and unusually prominent sclerocoels

   Holland, Nicholas D.; Holland, Linda Z. (January 2024, Journal of Morphology)

   Serial block-face scanning electron microscopy of the tail tip of post-metamorphic amphioxus (Branchiostoma floridae) revealed some terminal myomeres never been seen before with other techniques. The morphology of these myomeres differed markedly from the chevron shapes of their more anterior counterparts. Histologically, these odd-shaped myomeres ranged from empty vesicles bordered by undifferentiated cells to ventral sacs composed of well-developed myotome, dermatome, and sclerotome. Strikingly, several of these ventral sacs gave rise to a nipple-like dorsal projection composed either entirely of sclerotome or a mixture of sclerotome and myotome. Considered as a whole, from posterior to anterior, these odd-shaped posterior myomeres suggested that their more substantial ventral part may represent the ventral limb of a chevron, while the delicate projection represents a nascent dorsal limb. This scenario contrasts with formation of chevron-shaped myomeres along most of the antero-posterior axis. Although typical chevron formation in amphioxus is surprisingly poorly studied, it seems to be attained by a dorso-ventral extension of the myomere accompanied by the assumption of a V-shape; this is similar to what happens (at least superficially) in developing fishes. Another unusual feature of the odd-shaped posterior myomeres of amphioxus is their especially distended sclerocoels. One possible function for these might be to protect the posterior end of the central nervous system from trauma when the animals burrow into the substratum. 

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2. The Rohde‐like cells at the posterior end of the dorsal nerve cord of amphioxus (Cephalochordata)

   https://doi.org/10.1002/cne.25644  

   Holland, Nicholas D; Holland, Linda Z (June 2024, Journal of Comparative Neurology)

   Abstract For postmetamorphic specimens of amphioxus (Cephalochordata), serial block‐face scanning electron microscopy (SBSEM) is used to describe the long‐ignored Rohde‐like cells (RLCs) at the extreme posterior end of the dorsal nerve cord. These cells, numbering about three dozen in all, are divisible into a group with larger diameters running near the dorsal side of the cord and a more ventral group with smaller diameters closely associated with the central canal of the neurocoel. It is possible that the smaller ventral cells might be generated at the ependymal zone of the dorsal nerve cord and later migrate to a dorsal position, although a functional reason for this remains a mystery. All the RLCs have conspicuous regions of microvilli covering as much as 40% of their surface; limited data (by others) on the more anterior bona fide Rohde cells also indicate an extensive microvillar surface. Thus, both the RLCs and the better‐known Rohde cells appear to be rhabdomeric photoreceptors, although a specific function for this feature is currently unknown. Even more perplexingly, although the Rohde cells are quintessential neurons extending giant processes, each RLC comprises a perikaryon that does not bear any neurites. 

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3. Asymmetric Segregation of Maternal mRNAs and Germline-related Determinants in Cephalochordate Embryos: Implications for the Evolution of Early Patterning Events in Chordates

   https://doi.org/10.1093/icb/icae012  

   Yu, Jr-Kai; Peng, Li-Ying; Chen, Chen-Yi; Lu, Tsai-Ming; Holland, Nicholas D; Holland, Linda Z (April 2024, Integrative And Comparative Biology)

   Synopsis How animal embryos determine their early cell fates is an important question in developmental biology. In various model animals, asymmetrically localized maternal transcripts play important roles in axial patterning and cell fate specification. Cephalochordates (amphioxus), which have three living genera (Asymmetron, Epigonichthys, and Branchiostoma), are an early branching chordate lineage and thus occupy a key phylogenetic position for understanding the evolution of chordate developmental mechanisms. It has been shown that in the zygote of Branchiostoma amphioxus, which possesses bilateral gonads flanking both sides of their trunk region, maternal transcripts of germline determinants form a compact granule. During early embryogenesis, this granule is inherited by a single blastomere, which subsequently gives rise to a cluster of cells displaying typical characteristics of primordial germ cells (PGC). These PGCs then come to lie in the tailbud region and proliferate during posterior elongation of the larvae to join in the gonad anlagen at the ventral tip of the developing myomeres in amphioxus larvae. However, in Asymmetron and Epigonichthys amphioxus, whose gonads are present only on the right side of their bodies, nothing is known about their PGC development or the cellular/morphogenetic processes resulting in the asymmetric distribution of gonads. Using conserved germline determinants as markers, we show that similarly to Branchiostoma amphioxus, Asymmetron also employs a preformation mechanism to specify their PGCs, suggesting that this mechanism represents an ancient trait dating back to the common ancestor of Cephalochordates. Surprisingly, we found that Asymmetron PGCs are initially deposited on both sides of the body during early larval development; however, the left-side PGCs cease to exist in young juveniles, suggesting that PGCs are eliminated from the left body side during larval development or following metamorphosis. This is reminiscent of the PGC development in the sea urchin embryo, and we discuss the implications of this observation for the evolution of developmental mechanisms. 

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4. Establishment, conservation, and innovation of dorsal determination mechanisms during the evolution of vertebrate paired appendages

   https://doi.org/10.1101/2025.07.02.662459  

   Hawkins, M Brent; Zdral, Sofía; Naranjo, Silvia; Juliá, Miguel; Sánchez-Martín, Manuel; Daane, Jacob M; Cumplido, Nicolas; Jandzik, David; Medeiros, Daniel M; McMenamin, Sarah K; et al (July 2025, bioRxiv)

   Abstract Limb function requires polarized anatomy across the dorsal-ventral (DV) axis, but it is unclear when the capacity for DV differentiation of paired appendages arose in evolution. Here we define ancestral DV patterning programs in the fins of fishes. We show that the orthologue of the limb dorsal determinant, Lmx1b, is required to establish dorsality in zebrafish pectoral fins and is regulated by a conservedLARMcis-regulatory hub. However,lmx1bbexpression in median fins is unaffected by removal of theLARM, suggesting its regulation is an evolutionary innovation specific to the paired appendages. Although we find theLARMis highly conserved across gnathostomes, we identify specific alteration of this region in hillstream loaches, fishes which naturally parallel “double-ventral” fin phenotypes observed inlmx1bbandLARMmutants. Altogether our findings indicateLARM-mediated dorsal identity is an ancestral feature of paired appendages that provide a prepattern for limb evolution and lineage diversification. 

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5. Musical Experience Relates to Insula-Based Functional Connectivity in Older Adults

   https://doi.org/10.3390/brainsci12111577  

   Ai, Meishan; Loui, Psyche; Morris, Timothy P.; Chaddock-Heyman, Laura; Hillman, Charles H.; McAuley, Edward; Kramer, Arthur F. (November 2022, Brain Sciences)

   Engaging in musical activities throughout the lifespan may protect against age-related cognitive decline and modify structural and functional connectivity in the brain. Prior research suggests that musical experience modulates brain regions that integrate different modalities of sensory information, such as the insula. Most of this research has been performed in individuals classified as professional musicians; however, general musical experiences across the lifespan may also confer beneficial effects on brain health in older adults. The current study investigated whether general musical experience, characterized using the Goldsmith Music Sophistication Index (Gold-MSI), was associated with functional connectivity in older adults (age = 65.7 ± 4.4, n = 69). We tested whether Gold-MSI was associated with individual differences in the functional connectivity of three a priori hypothesis-defined seed regions in the insula (i.e., dorsal anterior, ventral anterior, and posterior insula). We found that older adults with more musical experience showed greater functional connectivity between the dorsal anterior insula and the precentral and postcentral gyrus, and between the ventral anterior insula and diverse brain regions, including the insula and prefrontal cortex, and decreased functional connectivity between the ventral anterior insula and thalamus (voxel p < 0.01, cluster FWE p < 0.05). Follow-up correlation analyses showed that the singing ability subscale score was key in driving the association between functional connectivity differences and musical experience. Overall, our findings suggest that musical experience, even among non-professional musicians, is related to functional brain reorganization in older adults. 

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