Self-assembly and characterization of small and monodisperse dye nanospheres in a protein cage

Phthalocyanines (Pc) are dyes in widespread use in materials science and nanotechnology, with numerous applications in medicine, photonics, electronics and energy conversion. With the aim to construct biohybrid materials, we here prepared and analyzed the structure of two Pc-loaded virus-like particles (VLP) with diameters of 20 and 28 nm (i.e., T = 1 and T = 3 icosahedral symmetries, respectively). Our cryo-electron microscopy (cryo-EM) studies show an unprecedented, very high level of Pc molecule organization within both VLP. We found that 10 nm diameter nanospheres form inside the T = 1 VLP by self-assembly of supramolecular Pc stacks. Monodisperse, self-assembled organic dye nanospheres were not previously known, and are a consequence of capsid-imposed symmetry and size constraints. The Pc cargo also produces major changes in the protein cage structure and in the mechanical properties of the VLP. Pc-loaded VLP are potential photosensitizer/carrier systems in photodynamic therapy (PDT), for which their mechanical behaviour must be characterized. Many optoelectronic applications of Pc dyes, on the other hand, are dependent on dye organization at the nanoscale level. Our multidisciplinary study thus opens the way towards nanomedical and nanotechnological uses of these functional molecules. © 2014 The Royal Society of Chemistry

Self-assembly and characterization of small and monodisperse dye nanospheres in a protein cage

Phthalocyanines (Pc) are dyes in widespread use in materials science and nanotechnology, with numerous applications in medicine, photonics, electronics and energy conversion. With the aim to construct biohybrid materials, we here prepared and analyzed the structure of two Pc-loaded virus-like particles (VLP) with diameters of 20 and 28 nm (i.e., T = 1 and T = 3 icosahedral symmetries, respectively). Our cryo-electron microscopy (cryo-EM) studies show an unprecedented, very high level of Pc molecule organization within both VLP. We found that 10 nm diameter nanospheres form inside the T = 1 VLP by self-assembly of supramolecular Pc stacks. Monodisperse, self-assembled organic dye nanospheres were not previously known, and are a consequence of capsid-imposed symmetry and size constraints. The Pc cargo also produces major changes in the protein cage structure and in the mechanical properties of the VLP. Pc-loaded VLP are potential photosensitizer/carrier systems in photodynamic therapy (PDT), for which their mechanical behaviour must be characterized. Many optoelectronic applications of Pc dyes, on the other hand, are dependent on dye organization at the nanoscale level. Our multidisciplinary study thus opens the way towards nanomedical and nanotechnological uses of these functional molecules

Primary Disease Prevention for Southwest American Indian Families During the COVID-19 Pandemic: Camp in a Box

The goal of the American Indian Youth Wellness Camp in a Box was to engage, educate and empower families to improve their health and overall well-being during the COVID-19 pandemic. Camp in a Box was a 9-week program, inclusive of a 1-week intensive camp component followed by an 8-week booster component with content focused on nutrition, mental health and physical activity education. The Camp in a Box is a Tribal/Urban Indian-University partnership, and materials were developed to replace an existing weeklong residential camp and to comply with social distancing guidelines. Fourteen American Indian families from Tribal/Urban Indian communities in the southwestern United States participated (36 children aged 2–18 years; 32 adults). The intensive camp week included daily materials for families to complete together, Monday through Friday. Materials were provided for approximately 4 h of activities per day. The booster sessions began after camp week and included approximately 4 h of supplementary activities designed to be completed at any time most convenient for the family over the course of the week. Activities were designed to encourage interaction among family members with materials and supplies for parents and youth to participate. Self-reported outcomes suggested that families changed their eating habits to include more vegetables, less sweets and junk food. Parents reported an increase in family physical activity and that the activities brought the family closer together. Our Camp in a Box program was feasible and well-received until school began. During camp week, 100% of recruited families participated; at Booster Week 8, ten families (71%) remained enrolled and active. Camp in a Box is a feasible alternative to residential camps for promotion of health behaviors associated with metabolic disease prevention among American Indian families. In contrast to residential camps for youth, Camp in a Box offers an opportunity to engage the entire family in health promotion activities. © Copyright © 2021 Gachupin, Caston, Chavez, Bernal, Cager, Harris, John, Remitera, Garcia, Romero, Gchachu, Gchachu, Garcia, Gchachu, Gchachu, Rens, Slowtalker, Blew, Tracy, Figueroa, Thomson, Ranjbar, Hingle, O’Connor, Roe, Grant, Swick and Joe.Open access journalThis item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]