Protein Ninja


Book Description

I wanted protein recipes other than that mashing a vanilla-flavored powder with almond butter and flax seeds and calling it a day. I wanted something that really made me feel as if I was cooking. And yes, even good old-fashioned baking! Adding pure, unflavored, but wholesome plant-based protein powders to recipes brings out my inner foodie alchemist. I heard the call of the protein ninja. Whether you're vegan, vegetarian, or eat-everything-you-can-get-your-hands-on, a weeknight home chef, everyday athlete, or just a busy person looking wholesome, protein-rich snacks and meals, you deserve something better than another chia seed ball or protein shake for dinner. Award-winning vegan chef Terry Hope Romero leads the charge with 100 lean, mean recipes using a wide range of readily available ingredients -- from supermarket-friendly staples to cutting-edge superfoods and an arsenal of gluten- and soy-free options. With an everything-you-need-to-know rundown on plant-based protein sources, and chapters like Stealthy Protein Pancakes, Waffles, Scrambles, & Much Much More, Super Toast: Savory or Sweet, and Better than Ever Burger Bowls, you'll soon be sneaking plant-based protein into your breakfasts, dinners, and everything in between. Dig into: Chocolate Avocado Smoothie Bowl Golden Corn Hemp Protein Waffles Baked Veggie Pan Omelet Edamame Spelt Flatbreads Garam Masala Red Lentil Toast Cheezy Herb Kale Scones Green Goddess Burger & Roasted Potatoes Bowl Tomato Gravy & Biscuit Kale Bowl Korean Tofu Taco Salad Lemongrass Tempeh Meatballs with Peanut Satay Sauce Waffled Tofu, Waffles & Collards Bowl Black Bean Hemp Brownies Peanut Butter Coconut Cherry Chewies . . . and many more!




The Secret of Protein:Unveiling The Laughter


Book Description

Hey fitness fanatics and comedy connoisseurs! 🏋️‍♂️😆 Ready to flex your funny bone and your muscles at the same time? Introducing my new book, "Unveiling The Laughter: The Secret of Protein-Inducing Truth Behind Muscle Fuel" - where protein shakes and punchlines collide! 🤣🥤💥 🌟 Why did the bodybuilder bring a pencil to the gym? ✏️ In case he needed to draw some muscles! 💪🎨 Dive into the hilarious world of muscle fuel mysteries with my laugh-out-loud book! 📖😂 🚀 Snatch your copy now and squat your way to a six-pack... of giggles! 🤣💬 Get ready to lift weights and lift spirits with a dash of humor! Let's flex our funny muscles and uncover the laughter behind muscle fuel together! 💥😄




Plant Chemical Biology


Book Description

Demonstrates how advances in plant chemical biology can translate to field applications With contributions from a team of leading researchers and pioneers in the field, this book explains how chemical biology is used as a tool to enhance our understanding of plant biology. Readers are introduced to a variety of chemical biology studies that have provided novel insights into plant physiology and plant cellular processes. Moreover, they will discover that chemical biology not only leads to a better understanding of the underlying mechanisms of plant biology, but also the development of practical applications. For example, the authors discuss small molecules that can be used to identify targets of herbicides and develop new herbicides and plant growth regulators. The book begins with a historical perspective on plant chemical biology. Next, the authors introduce the chemical biology toolbox needed to perform successful studies, with chapters covering: Sources of small molecules Identification of new chemical tools by high-throughput screening (HTS) Use of chemical biology to study plant physiology Use of chemical biology to study plant cellular processes Target identification Translation of plant chemical biology from the lab to the field Based on the latest findings and extensively referenced, the book explores available compound collections, principles of assay design, and the use of new research tools for the development of new applications. Plant Chemical Biology is recommended for students and professionals in all facets of plant biology, including molecular biology, physiology, biochemistry, agriculture, horticulture, and agronomy. All readers will discover new approaches that can lead to the development of a healthier and more plentiful global food supply.




Jasmonic Acid Pathway in Plants


Book Description

The plant hormone jasmonic acid (JA) and its derivative, an amino acid conjugate of JA (jasmonoyl isoleucine, JA-Ile), are signaling compounds involved in the regulation of defense and development in plants. The number of articles studying on JA has dramatically increased since the 1990s. JA is recognized as a stress hormone that regulates the plant response to biotic stresses such as herbivore and pathogen attacks, as well as abiotic stresses such as wounding and ultraviolet radiation. Recent studies have remarkably progressed the understanding of the importance of JA in the life cycle of plants. JA is directly involved in many physiological processes, including stamen growth, senescence, and root growth. JA regulates production of various metabolites such as phytoalexins and terpenoids. Many regulatory proteins involved in JA signaling have been identified by screening for Arabidopsis mutants. However, much more remains to be learned about JA signaling in other plant species. This Special Issue, “Jasmonic Acid Pathway in Plants”, contains 5 review and 15 research articles published by field experts. These articles will help with understanding the crucial roles of JA in its response to the several environmental stresses and development in plants.




Low-Temperature Stress in Plants: Molecular Responses, Tolerance Mechanisms, Plant Biodesign and Breeding Applications


Book Description

Low-temperature stress is the primary abiotic stress that affects the growth and development of plants and their geographical distribution. This can lead to the solidification of membrane lipids and decrease of enzymatic reaction rate in plants in a relatively short time, or indirectly affect the imbalance of respiration and photosynthesis, accumulation of toxic substances, ATP depletion, cell solute leakage and wilting due to water loss. Low-temperature stress can be divided into chilling stress and freezing stress according to the damage caused to plants. Both chilling and freezing stress drastically threaten global food security and species diversity in the northern and frigid temperate zones. Once plants experience low-temperature stress, the regulation mechanism of gene expression is rapidly activated to cope with the adverse environment.




Lipid signaling in plants


Book Description

Cell membranes are the initial and focal sites of stimulus perception and signal transduction. Membrane lipids are rich sources for the production of signaling messengers that mediate plant growth, development, and response to nutrient status and stresses. In recent years, substantial progress has been made toward understanding lipid signaling in plants, but many fundamental questions remain: What lipids are signaling messengers or mediators in plants? How are the signaling lipids produced and metabolized? In what plant cellular and physiological processes are various lipid mediators involved? How do they carry out their signaling functions? How do lipid signaling networks contribute to modulating plant growth, development, and responses to hormones and stresses? In this Research Topic issue, we invite the broad plant community to address the above questions.Cell membranes are the initial and focal sites of stimulus perception and signal transduction. Membrane lipids are rich sources for the production of signaling messengers that mediate plant growth, development, and response to nutrient status and stresses. In recent years, substantial progress has been made toward understanding lipid signaling in plants, but many fundamental questions remain: What lipids are signaling messengers or mediators in plants? How are the signaling lipids produced and metabolized? In what plant cellular and physiological processes are various lipid mediators involved? How do they carry out their signaling functions? How do lipid signaling networks contribute to modulating plant growth, development, and responses to hormones and stresses? In this Research Topic issue, we invite the broad plant community to address the above questions.




Abiotic Stress Signaling in Plants: Functional Genomic Intervention


Book Description

Abiotic stresses such as high temperature, low-temperature, drought and salinity limit crop productivity worldwide. Understanding plant responses to these stresses is essential for rational engineering of crop plants. In Arabidopsis, the signal transduction pathways for abiotic stresses, light, several phytohormones and pathogenesis have been elucidated. A significant portion of plant genomes (Arabidopsis and rice were mostly studied) encodes for proteins involves in signaling such as receptor, sensors, kinases, phosphatases, transcription factors and transporters/channels. Despite decades of physiological and molecular effort, knowledge pertaining to how plants sense and transduce low and high temperature, low-water availability (drought), water-submergence, microgravity and salinity signals is still a major question for plant biologist. One major constraint hampering our understanding of these signal transduction processes in plants has been the lack or slow pace of application of molecular genomic and genetics knowledge in the form of gene function. In the post-genomic era, one of the major challenges is investigation and understanding of multiple genes and gene families regulating a particular physiological and developmental aspect of plant life cycle. One of the important physiological processes is regulation of stress response, which leads to adaptation or adjustment in response to adverse stimuli. With the holistic understanding of the signaling pathways involving not only one gene family but multiple genes or gene families, plant biologist can lay a foundation for designing and generating future crops, which can withstand the higher degree of environmental stresses (especially abiotic stresses, which are the major cause of crop loss throughout the world) without losing crop yield and productivity. Therefore, in this e-Book, we intend to incorporate the contribution from leading plant biologists to elucidate several aspects of stress signaling by functional genomics approaches.




Plant Hormone Signaling Systems in Plant Innate Immunity


Book Description

Plants are endowed with innate immune system, which acts as a surveillance system against possible attack by pathogens. Plant innate immune systems have high potential to fight against viral, bacterial, oomycete and fungal pathogens and protect the crop plants against wide range of diseases. However, the innate immune system is a sleeping system in unstressed healthy plants. Fast and strong activation of the plant immune responses aids the host plants to win the war against the pathogens. Plant hormone signaling systems including salicylate (SA), jasmonate (JA), ethylene (ET), abscisic acid (ABA), auxins, cytokinins, gibberellins and brassinosteroids signaling systems play a key role in activation of the sleeping immune systems. Suppression or induction of specific hormone signaling systems may result in disease development or disease resistance. Specific signaling pathway has to be activated to confer resistance against specific pathogen in a particular host. Two forms of induced resistance, systemic acquired resistance (SAR) and induced systemic resistance (ISR), have been recognized based on the induction of specific hormone signaling systems. Specific hormone signaling system determines the outcome of plant-pathogen interactions, culminating in disease development or disease resistance. Susceptibility or resistance against a particular pathogen is determined by the action of the signaling network. The disease outcome is often determined by complex network of interactions among multiple hormone signaling pathways. Manipulation of the complex hormone signaling systems and fine tuning the hormone signaling events would help in management of various crop diseases. The purpose of the book is to critically examine the potential methods to manipulate the multiple plant hormone signaling systems to aid the host plants to win the battle against pathogens.




Plant Transcription Factors


Book Description

Plant Transcription Factors: Evolutionary, Structural and Functional Aspects is the only publication that provides a comprehensive compilation of plant transcription factor families and their complex roles in plant biology. While the majority of information about transcription factors is based on mammalian systems, this publication discusses plant transcription factors, including the important aspects and unifying themes to understanding transcription factors and the important roles of particular families in specific processes. - Provides an entry point for transcription factor literature - Offers compilation of information into one single resource for rapid consultation on different plant transcription factor features - Integrates the knowledge about different transcription factors, along with cross-referencing - Provides information on the unique aspects surrounding plant transcription factors




When Ninjas Attack


Book Description

CAN YOU SURVIVE A NINJA ATTACK? It will come without warning. It will be silent, ruthless and over in seconds. But will it be your end? When the barrage of razor-sharp ninja stars flies and the sword-wielding assassin charges, the secret ninja-killing techniques in this book will allow you to turn certain death into glorious victory. When Ninjas Attack is a comprehensive guide to defeating these black-clad warriors: •How to spot a ninja before it’s too late •Elite counter-assassination techniques •Booby traps to ninja-proof your home •Deadly weapons for dispatching an assailant •Secrets of ninja training and mind control •Infiltrating the world-wide network of ryus