Buffalo Reading List

This reading list gathers together literature focused on buffalo (also known as bison) to support ongoing efforts to restore this iconic species to its keystone cultural and ecological role. The books and articles compiled here are grounded in a wide range of academic disciplines and approaches, representing many distinct ways of thinking about buffalo within the realm of Western sciences. This is not intended to be an exhaustive account of what is known about buffalo, much of which is held in Indigenous knowledge systems and communities. This academic list is designed as a resource for those working towards buffalo restoration, including conservation practitioners, researchers, parks and government officials, and Tribal communities. It is divided into categories according to either discipline or thematic focus, each containing a subset of pertinent literature. Topics include the paleobiology of bison, histories of buffalo loss, relationships between Indigenous Peoples and buffalo, buffalo restoration and reintroduction, buffalo ecology, buffalo and climate change, governance and human dimensions of buffalo, bison and cattle, bison as livestock, and the genetics of bison. This list is intended as a living document to grow with the increasingly rich scholarship on buffalo, and will be updated regularly

Ribosome stalling is a signal for metabolic regulation by the ribotoxic stress response.

Impairment of translation can lead to collisions of ribosomes, which constitute an activation platform for several ribosomal stress-surveillance pathways. Among these is the ribotoxic stress response (RSR), where ribosomal sensing by the MAP3K ZAKα leads to activation of p38 and JNK kinases. Despite these insights, the physiological ramifications of ribosomal impairment and downstream RSR signaling remain elusive. Here, we show that stalling of ribosomes is sufficient to activate ZAKα. In response to amino acid deprivation and full nutrient starvation, RSR impacts on the ensuing metabolic responses in cells, nematodes, and mice. The RSR-regulated responses in these model systems include regulation of AMPK and mTOR signaling, survival under starvation conditions, stress hormone production, and regulation of blood sugar control. In addition, ZAK <sup>-/-</sup> male mice present a lean phenotype. Our work highlights impaired ribosomes as metabolic signals and demonstrates a role for RSR signaling in metabolic regulation