Car Ma is Alison Mosshart's first collection in print of her art, photography, and writing. Mosshart is the lead singer for bands such as The Kills and Dead Weather. Her mother was a high school art teacher and her father a used car dealer--both influenced Car Ma's images, poems, and stories. Mosshart describes the book: "It's a book about America, performance, and life on the road. It's a book about fender bender portraiture, story tellin' tire tracks, and the never-ending search for the spirit under the hood."
The Worcester Lunch Car Company monopolized the New England market with its colorful diners. Although Worcester sent a smattering of diners as far as Florida and Michigan, the cars were most popular in their home territory. From 1906 to 1961, the company built six hundred fifty-one diners, with as few as ten or as many as seventy seats. Known for their small size, solid construction, and old-fashioned styling, the cars featured oak and mahogany woodwork, intricate ceramic tile patterns, and a backbar of stainless steel. Their distinctive porcelain enamel exteriors with names emblazoned on them proudly proclaimed their presence along the roadside. Day and night, these diners fed generations of New England's working class; today, fewer than one hundred lunch cars still operate.
Kurby, Risk, and Carma team up to save their mother ship, BeegMumma, from hostile aliens, but must also face prejudices while completing their mission.
Some twenty years ago, the search began for B-cell lymphoma (BCL)-10 binding partners that connect via homophilic interaction with its N-terminal caspase recruitment domain (CARD) to induce nuclear factor-kappa B (NF-κB) activation. This effort led first to the identification of the protein CARD9. Soon afterwards, similar searches identified CARD10 (aka CARMA3), CARD11 (aka CARMA1) and CARD14 (aka CARMA2), as further BCL10 interactors. These discoveries paved the way for landmark progress in our understanding of NF-κB activation pathways downstream of several cell surface receptors on multiple cell types, focused particularly on antigen receptors on lymphocytes. An additional binding partner, called Mucosa-associated lymphoid tissue lymphoma translocation protein 1 (MALT1), was also implicated in the CARD-BCL10 pathway. Since then, the resulting “CBM” complex has been recognized as a key node in signaling cascades leading to NF-κB activation, particularly in immune cells. Mouse models of genetic deficiencies for each CBM component provided the first evidence for their critical role in cell signaling. More recently, studies of human lymphoid malignancies and novel genetic disorders have revealed important new insights. Both gain- and loss-of-function mutations were identified, establishing these CARMA/CARD proteins as key regulators of proliferation and differentiation of immune and non-immune cells, and linking them to human disease. According to the genetic defect involved, dysregulation of CARMA/CARD pathways can lead to a broad spectrum of immune disorders, including severe immune deficiencies, lymphoproliferative disorders, psoriasis and atopy. The aim of this Research Topic is to summarize and update our current understanding of CARMA/CARD protein biology, from initial discoveries to the most recent insights. It focuses on CARD9 and the CARMA proteins CARD10, CARD11 and CARD14, from genetic, signaling and disease perspectives. BCL10 and MALT1 are also reviewed in this context as critical nodes for CBM signal relay and regulation. This Research Topic also aims to delineate the next key questions in the field to guide future research efforts.
