This is the Second Edition of Transform Your Life And Save The World following significant additions in June 2019.

The world is in crisis! What is the solution?

Ultimately, we have to find the redeeming, and thus transforming, understanding of our psychologically troubled human condition. And it is precisely that dreamed-of insight, and its now desperately needed transformation of our lives, that Australian biologist Jeremy Griffith presents in this book.

Titled Transform Your Life And Save The World - Through The Dreamed Of Arrival Of The Rehabilitating Biological Explanation Of The Human Condition, this book is a very short but powerful condensation of Griffith's definitive treatise of the human condition that is presented in his book FREEDOM: The End Of The Human Condition.

The genesis of Transform Your Life And Save The World lay in Griffith's address at the June 2016 launch of FREEDOM at the Royal Geographical Society in London. Commencing with very brief extracts from Tim Macartney-Snape's Introduction at the launch, and Sir Bob Geldof's keynote address, it goes on to summarise FREEDOM's content in 3 powerful chapters: 'The Dishonest Biology', 'The Truthful Biology', and 'The Resulting Transformation Of The Human Race'.

In fact, in just over 100 pages of sensational world-shaking but at the same time spectacular world-saving TRUTH about human behaviour, Griffith delivers a presentation that is so profoundly liberating, relieving and transforming of your life that this little book may be all you need to read!

As Professor Harry Prosen, a former President of the Canadian Psychiatric Association, has said, I have no doubt this biological explanation of the human condition is the holy grail of insight we have sought for the psychological rehabilitation of the human race.

This book is supported by a very informative website.

Developmental Biology, Thirteenth Edition, accommodates the needs of both beginners and advanced students by clearly distinguishing the main subject matter from the details needed by advanced students.

An enhanced e-Book contains videos, interviews, tutorials, and interactive features. This market-leading text embodies the breadth, intellectual rigor, and wonder of contemporary developmental biology.

Each of us began life as a single cell. From this humble origin, we embarked on a risky journey fraught with opportunities for disaster. Yet, amazingly, we reached our destination intact, emerging as dazzlingly complex, exquisitely engineered assemblages of trillions of cells. This metamorphosis constitutes one of nature's most spectacular yet commonplace magic tricks--and one of its most coveted secrets. In From One Cell, physician and researcher Ben Stanger offers a breathtaking glimpse into what scientists are discovering about how life and the body take shape, and how these revelations stand to revolutionize medicine and the future of human health.

In vivid prose, Stanger leads readers on a gripping odyssey retracing this universal, yet unremembered, rite of passage. Through the eyes of the scientists unraveling development's riddles in experiments as painstaking as they are inventive, we confront fascinating puzzles: how does the plethora of different tissues that compose our bodies arise from a single source? How do cells know what they are meant to become--skin or bone, blood or muscle--when all carry the same set of genetic instructions? Once a cell starts developing down one path, can it change its mind, or is its destiny irrevocably sealed?

As Stanger shows us, the answers to these questions may at last empower us to solve some of our most persistently confounding medical challenges, from cancer to cognitive decline to degenerative disease. Recognizing tumors as evil doppelgangers of the embryo points the way toward new, more targeted cancer therapies. Learning how cells choose their identities and find their way in space could unlock lifesaving breakthroughs in regenerative medicine. The possibilities are extraordinary.

Popular science at its best, From One Cell celebrates the power and beauty of understanding our collective beginnings.

An ingenious argument (Kirkus) for a novel thesis (Publishers Weekly) that cells, not DNA, hold the key to understanding life's past and present  

What defines who we are? For decades, the answer has seemed obvious: our genes, the blueprint of life. In The Master Builder, biologist Alfonso Martinez Arias argues we've been missing the bigger picture. It's not our genes that define who we are, but our cells. While genes are important, nothing in our DNA explains why the heart is on the left side of the body, how many fingers we have, or even how our cells manage to reproduce. Drawing on new research from his own lab and others, Martinez Arias reveals that we are composed of a thrillingly intricate, constantly moving symphony of cells. Both their long lineage--stretching back to the very first cell--and their intricate interactions within our bodies today make us who we are.

Engaging and ambitious, The Master Builder will transform your understanding of our past, present, and future--as individuals and as a species.

This handbook explains how to establish the framework for an experimental project, how to set up all of the components of an experimental system, design experiments within that system, determine and use the correct set of controls, and formulate models to test the veracity and resiliency of the data. This thoroughly updated edition of Experimental Design for Biologists is an essential source of theory and practical guidance for designing a research plan.

Her work is both timeless and timely, and spans disciplines, continents, and millennia. It is underscored by an innate environmentalism and driven by Sussman's relentless curiosity. She begins at year zero, and looks back from there, photographing the past in the present. These ancient individuals live on every continent and range from Greenlandic lichens that grow only one centimeter a century, to unique desert shrubs in Africa and South America, a predatory fungus in Oregon, Caribbean brain coral, to an 80,000-year-old colony of aspen in Utah. Sussman journeyed to Antarctica to photograph 5,500-year-old moss; Australia for stromatolites, primeval organisms tied to the oxygenation of the planet and the beginnings of life on Earth; and to Tasmania to capture a 43,600-year-old self-propagating shrub that's the last individual of its kind. Her portraits reveal the living history of our planet--and what we stand to lose in the future. These ancient survivors have weathered millennia in some of the world's most extreme environments, yet climate change and human encroachment have put many of them in danger. Two of her subjects have already met with untimely deaths by human hands.

Alongside the photographs, Sussman relays fascinating - and sometimes harrowing - tales of her global adventures tracking down her subjects and shares insights from the scientists who research them. The oldest living things in the world are a record and celebration of the past, a call to action in the present, and a barometer of our future.

Insect Ecomorphology: Linking Functional Insect Morphology to Ecology and Evolution offers up-to-date knowledge and understanding of the morphology of insects and the functional basis of their diversity. This book covers the form and function of insect body structures in relation to their physiological performance capabilities, biological roles, and evolutionary histories. Written by international experts, the book explores the ecomorphology of functional systems such as insect feeding, locomotion, sensing, and egg laying. The combination of conceptual and review chapters, methodological approaches, and case studies enables readers to delve into active research fields and to gain an understanding of the form-function-performance paradigm.

This book uncovers key structures of the various regions of the insect body, elucidates their function, and investigates their ecological and evolutionary implications. Insect Ecomorphology is thus a vital resource for entomologists, biologists, and zoologists, especially those seeking to understand more fully the morphology and physiological impacts of insects in correlation to their environments and to evolution.

Each of us began life as a single cell. From this humble origin, we embarked on a risky journey fraught with opportunities for disaster. Yet, amazingly, we reached our destination intact, emerging as dazzlingly complex, exquisitely engineered assemblages of trillions of cells. This metamorphosis constitutes one of nature's most spectacular yet commonplace magic tricks--and one of its most coveted secrets. In From One Cell, physician and researcher Ben Stanger offers a breathtaking glimpse into what scientists are discovering about how life and the body take shape, and how these revelations stand to revolutionize medicine and the future of human health.

In vivid prose, Stanger leads readers on a gripping odyssey retracing this universal, yet unremembered, rite of passage. Through the eyes of the scientists unraveling development's riddles in experiments as painstaking as they are inventive, we confront fascinating puzzles: how does the plethora of different tissues that compose our bodies arise from a single source? How do cells know what they are meant to become--skin or bone, blood or muscle--when all carry the same set of genetic instructions? Once a cell starts developing down one path, can it change its mind, or is its destiny irrevocably sealed?

As Stanger shows us, the answers to these questions may at last empower us to solve some of our most persistently confounding medical challenges, from cancer to cognitive decline to degenerative disease. Recognizing tumors as evil doppelgangers of the embryo points the way toward new, more targeted cancer therapies. Learning how cells choose their identities and find their way in space could unlock lifesaving breakthroughs in regenerative medicine. The possibilities are extraordinary.

Popular science at its best, From One Cell celebrates the power and beauty of understanding our collective beginnings.

The Strange Order of Things is a pathbreaking investigation into homeostasis, the condition that regulates human physiology within the range that makes possible not only survival but also the flourishing of life. Antonio Damasio makes clear that we descend biologically, psychologically, and even socially from a long lineage that begins with single living cells; that our minds and cultures are linked by an invisible thread to the ways and means of ancient unicellular existence and other primitive life-forms; and that inherent in our very chemistry is a powerful force, a striving toward life maintenance that governs life in all its guises, including the development of genes that help regulate and transmit life. The Strange Order of Things is a landmark reflection that spans the biological and social sciences, offering a new way of understanding the origins of life, feeling, and culture.

www.antoniodamasio.com

Additional sections cover Exploring TLR Signaling Pathways as Promising Targets in Cervical Cancer: The Road Less Travelled

Other chapters cover The translational potential of epigenetic modulatory bioactive phytochemicals as adjuvant therapy against cancer, Strategies for improving chemotherapeutic sensitivity and the epigenetic regulation of doxorubicin resistance, and more.

A new history of the concept of fetal life in the human sciences

At a time when the becoming of a human being in a woman's body has, once again, become a fraught issue--from abortion debates and surrogacy controversies to prenatal diagnoses and assessments of fetal risk--Of Human Born presents the largely unknown history of how the human sciences came to imagine the unborn in terms of life before birth.

Caroline Arni shows how these sciences created the concept of fetal life by way of experimenting on animals, pregnant women, and newborns; how they worried about the influence of the expectant mother's living conditions; and how they lingered on the question of the beginnings of human subjectivity. Such were the concerns of physiologists, pediatricians, psychologists, and psychoanalysts as they advanced the novel discipline of embryology while, at the same time, grappling with age-old questions about the coming-into-being of a human person. Of Human Born thus draws attention to the fundamental way in which modern approaches to the unborn have been intertwined with the configuration of the human in the age of scientific empiricism.

Arni revises the narrative that the modern embryo is quintessentially an embryo disembedded from the pregnant woman's body. On the contrary, she argues that the concept of fetal life cannot be separated from its dependency on the maternal organism, countering the rhetorical discourses that have fueled the recent rollback of abortion rights in the United States.

Being sessiles like autotrophic plants and heterotrophics as animals, fungi are fascinating eukaryotes. In them, the need for external digestion has demanded surface expansion and limited tissues to 20% loss of commercial crops. Despite their ecological and economic importance, no university offers a degree course in Mycology. For 2,056,907 eukaryotic species, this book elaborates the role played by environmental factors (i) spatial distribution, (ii) light-temperature, (iii) precipitation-liquid water and biological attributes, (iv) cellularity, (v) symmetry, (vi) clonality, (vii) sexuality, (viii) modality and (ix) motility that either accelerate or decelerate biodiversity. About 20 and 80% eukaryotes are aquatics and terrestrials. Decreasing light intensity and temperature reduce diversity from the equator toward the polar zones. Water availability also reduces the diversity from 5.4 - 65.5 species/km2 in tropical evergreen forests to 200 in mammals reduces clonality from 100 to 0%. Strategies developed by eukaryotes reduce selfing by

Have you ever wondered why so many children these days have food allergies? Do you feel that the healthcare industry is more focused on prescribing drugs than preventing diseases? Perhaps you have read about murders carried out in the name of racial purity? In GATTACA Has Fallen: how population genetics failed the populace, Dr. Ian Myles explains that the root of all of these issues is the belief that genetics meaningfully guide our fate. Using less controversial examples like eczema and allergic diseases, the book demonstrates how claiming there are genes for asthma is similar to claiming there are genes for intellect or favorite flavor of tea. GATTTACA Has Fallen outlines how flawed study design and interpretations became woven into population genetics. The text details the successful methods used by geneticists working in the fields of rare diseases, cancer, and drug reactions to illuminate why population genetics has fallen short. GATTACA Has Fallen then explains why the faulty assumptions of population genetics continue to fuel bigotry and elitism. The book debunks the gene-centric paradigms found in The Selfish Gene and The Genetic Lottery and illuminates why eugenics has persisted despite decades of disappointing results. Finally, actionable suggestions are offered for shifting the paradigm to one that focuses on helping patients and preventing disease. GATTACA Has Fallen is for anyone interested in learning more about biology and uncovering the myths, lies, and legacy of population genetics.

A well-argued, approachable challenge to society's preoccupation with the potential of genetic science. - Kirkus Reviews