A tribute to Dr. Gordon Hisashi Sato (December 24, 1927–March 31, 2017)

Gordon H. Sato, an innovator in mammalian tissue culture and integrated cellular physiology, passed away in 2017. In tribute to Dr. Sato, In Vitro Cellular and Developmental Biology—Animal presents a collection of invited remembrances from six colleagues whose associations with Dr. Sato spanned more than 40 years. Dr. Sato was a past president of the Tissue Culture Association (now the Society for In Vitro Biology), editor-in-chief of In Vitro Cellular and Developmental Biology (1987–1991), and the recipient of the lifetime achievement award from the Society for In Vitro Biology (2002). He was elected to the US National Academy of Sciences in 1984.     

Genetic manipulation of microspores and microspore-derived embryos

Summary Recent advances in plant cell and molecular biology have furthered the genetic manipulation of many plant species and advanced the options for crop improvement. Among the many targets for genetic manipulation, microspores offer several unique advantages: they are haploid, single-celled, and highly synchronized. In many plant species microspores develop into haploid embryos, and eventually haploid and doubled haploid plants, after in vitro anther or microspore culture. This induced in vitro developmental pathway of microspores, termed microspore embryogenesis, can be used to recover individual homozygous plants from microspores and microspore-derived embryos after genetic manipulation such as mutagenesis and gene transfer. The highly efficient microspore embryogenesis system inBrassica napus has been used successfully to obtain various mutants after microspore mutagenesis, and to achieve gene transfer mediated byAgrobacterium tumefaciens. Presented in the Session-in-Depth In Vitro Gametophyte Biology at the 1991 World Congress on Cell and Tissue Culture held in Anaheim, California, June 16–20, 1991.     

Dr. Haifan Lin. Interviewed by Han Lee and Rachel Rosenstein

Dr. Haifan Lin is professor of Cell Biology at Yale University, where he studies the mechanism of stem cell self-renewal in fruit flies, mice, and human cancer cells. Recently named director of the Yale Stem Cell Center, Dr. Lin has made seminal contributions to the stem cell field, most notably his demonstration of the stem cell niche theory using the fruit fly model, his discovery of the PIWI/AGO gene family that is essential for stem cell division in diverse organisms, and his recent finding of a group of small RNAs called PIWI-interacting, or piRNAs, which may play a crucial role in stem cell proliferation and germline development. Dr. Lin’s work on piRNAs was recognized by Science Magazine as a top scientific breakthrough of 2006. Recently, the Lin lab has begun exploring the role of these molecules in stem cell division and oncogenesis.     

Trevor Alleyne Thorpe: His academic life and scientific legacy

In Vitro Cellular & Developmental Biology - Plant - This special review is written to commemorate the life and contributions of Dr. Trevor Alleyne Thorpe, who passed away on May 18, 2020, at...     

Social roles,prestige, and health risk

Selection pressure from health risk is hypothesized to have shaped adaptations motivating individuals to attempt to become valued by other individuals by generously and recurrently providing beneficial goods and/or services to them because this strategy encouraged beneficiaries to provide costly health care to their benefactors when the latter were sick or injured. Additionally, adaptations are hypothesized to have co-evolved that motivate individuals to attend to and value those who recurrently provide them with important benefits so they are willing in turn to provide costly care when a valued person is disabled or in dire need. Individuals in egalitarian foraging bands can provide a number of valuable benefits, such as defense, diplomacy, food, healing, information, technical skill, or trading savvy. We therefore expect that humans have evolved psychological mechanisms motivating the pursuit and cultivation of a difficult-to-replace social role based on the provisioning of a benefit that confers a fitness advantage on its recipients. We call this phenomenon social niche specialization. One such niche that has been well-documented is meat-sharing. Here we present cross-cultural evidence that individuals cultivate two other niches, information and tool production, that serve (among other things) to buffer health risk. Michelle Scalise Sugiyama studied at the Center for Evolutionary Psychology at the University of California, Santa Barbara, where she received her Ph.D. in literature in 1997. She is currently an affiliate of the English Department and the Institute for Cognitive and Decision Sciences at the University of Oregon, Eugene, and also directs the Cognitive Cultural Studies branch of the Human Universals Project at the Center for Evolutionary Psychology. Her work attempts to understand narrative and other art behaviors in terms of the cognitive architecture that underlies them and the ancestral conditions under which they emerged; published results can be found in Human Nature, Evolution and Human Behavior, Philosophy and Literature, and Mosaic. Lawrence Sugiyama holds a joint appointment in the Anthropology Department and the Institute for Cognitive and Decision Sciences at the University of Oregon, Eugene. He did his graduate work at the Center for Evolutionary Psychology at the University of California, Santa Barbara, where he cofounded the Human Universals Project and the Ecuadorian Oriente Research Station, which he now directs. His research among the Shiwiar, Yora, and Yanomamo examines health risk, cooperation, reciprocity, subsistence, and life history patterns among contemporary forager-horticulturalists, with the ultimate goal of furthering our understanding of pat selection pressures and the psychology evolved to surmount them. Published results can be found in Proceedings of the National Academy of Science, American Journal of Physical Anthropology, and Adaptation and Human Behavior: An Anthropological Perspective.     

Testing two chromosome doubling agents for in vitro tetraploid induction on ginger lilies,Hedychium gardnerianum Shepard ex Ker Gawl. and Hedychium coronarium J. Koenig

In Vitro Cellular & Developmental Biology - Plant - Polyploidization can be a way to produce new varieties in vegetatively propagated species where options on increasing genetic variability are...     

Adventitious shoot-based propagation of Franklinia alatamaha for commercial horticulture and restoration

In Vitro Cellular & Developmental Biology - Plant - Franklinia is a monotypic genus of the family Theaceae that is now extinct in the wild. F. alatamaha Bartram ex Marshall has been maintained...     

Cryopreservation and long-term storage of pear germplasm

Summary Germplasm collections of vegetatively propagated crops are usually maintained as plants in fields or potted in greenhouses or screened enclosures. Safety duplication of these collections, as duplicate plants or separate collections, is costly and requires large amounts of space. Cryopreservation techniques which were recently developed for long-term storage of pear germalasm may offer an efficient alternative to conventional germplasm collection maintenance. Pear (Pyrus L.) germplasm may now be stored as seeds (species), dormant buds or pollen from field-grown trees, or shoot tips fromin vitro-grown plants (cultivars). Pear germplasm may now be cryopreserved and stored for long periods (> 100 yr) utilizing slow-freezing or vitrification ofin vitro-grown shoot-tips. Dormant bud freezing, pollen, and seed cryopreservation of other lines are being developed to complete the base collection forPyrus. This cryopreserved collection provides base (long-term) storage for the field-grown pear germplasm collection at the National Clonal Germplasm Repository, Corvallis, Oregon. Based on a presentation at the 1997 Congress on In Vitro Biology held in Washington, D.C., June 14–18, 1997.     

Molecular Evolution at the Cytochrome Oxidase Subunit 2 Gene Among Divergent Populations of the Intertidal Copepod, Tigriopus californicus

The cytochrome c oxidase subunit 2 gene (COII) encodes a highly conserved protein that is directly responsible for the initial transfer of electrons from cytochrome c to cytochrome c oxidase (COX) crucial to the production of ATP during cellular respiration. Despite its integral role in electron transport, we have observed extensive intraspecific nucleotide and amino acid variation among 26 full-length COII sequences sampled from seven populations of the marine copepod, Tigriopus californicus. Although intrapopulation divergence was virtually nonexistent, interpopulation divergence at the COII locus was nearly 20% at the nucleotide level, including 38 nonsynonymous substitutions. Given the high degree of interaction between the cytochrome c oxidase subunit 2 protein (COX2) and the nuclear-encoded subunits of COX and cytochrome c (CYC), we hypothesized that some codons in the COII gene are likely to be under positive selection in order to compensate for amino acid substitutions in other subunits. Estimates of the ratio of nonsynonymous to synonymous substitution (ω), obtained using a series of maximum likelihood models of codon substitution, indicated that the majority of codons in T. californicus COII are under strong purifying selection (ω << 1), while approximately 4% of the sites in this gene appear to evolve under relaxed selective constraint (ω = 1). A branch-site maximum likelihood model identified three sites that may have experienced positive selection within the central California sequence clade in our COII phylogeny; these results are consistent with previous studies showing functional and fitness consequences among interpopulation hybrids between central and northern California populations. [Reviewing Editor: Dr. Willie Swanson]     

A tribute to Thomas Roosevelt Punnett, Jr. (1926-2008)

We honor here Thomas (Tom) Roosevelt Punnett, Jr. (May 25, 1926–July 4, 2008), who was a pioneer of Biology, particularly of biochemistry of plants and algae, having specialized in photosynthesis under Robert Emerson of the University of Illinois at Urbana-Champaign. He did exciting work on regulation and control of various metabolic reactions. He was an innovator and raconteur par excellence, and he prized critical thinking. His enthusiasm for basic science questions was matched by his grasp of their “real-world” implications. His last project was a patent for anaerobic sewage treatment that he hoped would lead to solution of waste disposal and energy creation world wide, including the clean-up of Lake Erie, where he had sailed as a boy. On the personal side, he had a strong sense of morality and a great wit and humor.     

Micropropagation,encapsulation, and conservation of Decalepis salicifolia,a vanillin isomer containing medicinal and aromatic plant

In Vitro Cellular & Developmental Biology - Plant - An efficient in vitro propagation and synthetic seed production protocol was established for the conservation of Decalepis salicifolia (Bedd....     

The evolutionary ecology of attachment organization

Life history theory’s principle of allocation suggests that because immature organisms cannot expend reproductive effort, the major trade-off facing juveniles will be the one between survival, on one hand, and growth and development, on the other. As a consequence, infants and children might be expected to possess psychobiological mechanisms for optimizing this trade-off. The main argument of this paper is that the attachment process serves this function and that individual differences in attachment organization (secure, insecure, and possibly others) may represent facultative adaptations to conditions of risk and uncertainty that were probably recurrent in the environment of human evolutionary adaptedness. An early version of this paper was presented in the symposium “Childhood in Life-history Perspective: Developing Views” organized by Gilda Morelli and Paula Ivey for the Annual Meeting of the Society for Cross-Cultural Research in Santa Fe, New Mexico, February 16–20, 1994. James S. Chisholm recently joined the Department of Anatomy and Human Biology at the University of Western Australia. Previously he taught in the Department of Anthropology at the University of New Mexico and in the Division of Human Development at the University of California, Davis. He is a biosocial anthropologist whose research interests lie in the fields of human behavioral biology, evolutionary ecology, and life history theory, where he focuses on infant social-emotional development and the development of reproductive strategies in adolescence and young adulthood. In addition to numerous articles he is the author ofNavajo Infancy: An Ethological Study of Child Development (Aldine de Gruyter, 1983).     

Cell differentiation; Cell division, growth and death

A selection of World Wide Web sites relevant to papers published in this issue of Current Opinion in Cell Biology.     

Q & A. [interview

Elaine and Gary Ostrander spent their youth in New Jersey and New York before heading to Nebraska for their teen years and eventually Washington State for High School and college, as their father moved around in library administration. Elaine was an undergraduate at the University of Washington, a graduate student at the Oregon Health Sciences University and a postdoc with James Wang at Harvard, studying DNA supercoiling. She next went to Berkeley, where she began the canine genome project, initiating the meiotic linkage map and working on human chromosome 21 at the Lawrence Berkeley National Labs. In 1993 she moved to the Fred Hutchinson Cancer Research Center where she is now a Member of the Divisions of Clinical Research and Human Biology. She is also an Affiliate Professor of Genome Sciences and Biology at the University of Washington, and heads the Program in Genetics at the Hutchinson Center. Gary completed his undergraduate degree in Biology at Seattle University, a M.S. degree at Illinois State University and a Ph.D at the University of Washington in Ocean and Fisheries Science. He went on to be a postdoc in the Department of Pathology at the University of Washington Medical School while being mentored by Senitroh Hakomori of the Fred Hutchinson Cancer Research Center and Eric Holmes of the Pacific Northwest Research Foundation. His work focused on using novel aspects of the biology of fishes to address fundamental questions about cancer. He subsequently held both faculty and administrative positions at Oklahoma State University. Since 1996, he has been at the Johns Hopkins University, where he currently holds academic appointments in the Departments of Biology and Comparative Medicine and is the Associate Provost for Research.     

Evaluating suitable low-cost agar substitutes,clarity, stability,and toxicity for resource-poor countries' tissue culture media

In Vitro Cellular & Developmental Biology - Plant - Over 20% of plant species assessed are threatened with extinction. Most of these plants have food security implications, especially in...     

Physiological,biochemical, and metabolic responses of a Taxus baccata L. callus culture under drought stress

In Vitro Cellular & Developmental Biology - Plant - The metabolic stimulation induced by abiotic stress is an efficient strategy for the production of secondary metabolites in sterile and...     

Production and antioxidant activity of secondary metabolites in Hassawi rice (Oryza sativa L.) cell suspension under salicylic acid,yeast extract,and pectin elicitation

In Vitro Cellular & Developmental Biology - Plant - Plants that produce bioactive chemicals provide a viable in vitro method for producing key nutraceutical substances, especially in the...     

Induction of multiple shoots in Oryza sativa: roles of thidiazuron, 6-benzylaminopurine,decapitation, flooding,and Ethrel® treatments

In Vitro Cellular & Developmental Biology - Plant - The impact of different concentrations of thidiazuron (TDZ) and 6-benzylaminopurine (BAP) and the role of decapitation, flooding, and...     

Shining light on anther culture,a poorly understood regeneration route in passion fruit (Passiflora gibertii N. E. Brown): histological,hormonal, and phytochemical aspects

In Vitro Cellular & Developmental Biology - Plant - Plant regeneration from reproductive organs is a poorly understood route in passion fruit. The present study provides a morpho-hystological...     

Isolation,chemical fusion,and culture systems for olive (Olea europaea L.) protoplasts

In Vitro Cellular & Developmental Biology - Plant - Oleasters are olive genotypes that range from wild to feral. They are tolerant to biotic and abiotic stresses and are easily propagated. This...