InnerPlant的动态

Unveiling the Mysteries of Potato Genomics: Insights from the Latest Harvest Description: Delve into the world of potato genomics with a fresh perspective as we explore the implications of the latest harvest and its connection to the groundbreaking research on potato genetics. https://lnkd.in/ey6ntpDp

?? Diving into the Intricacies of Plant Cell Division! ?? Delighted to share my recent endeavor in staining and slide preparation to study mitosis and meiosis in onion root tip cells and buds. Why onions? Their rapidly dividing cells in the root tips and buds offer a unique glimpse into the dynamic processes driving plant growth and development. What is the importance of understanding Cell Division? Understanding cell division in plants is pivotal for enhancing crop productivity, unraveling genetic mechanisms, and advancing agricultural innovation. Let's unlock the mysteries of nature! #PlantCellBiology #OnionRootTip #MitosisAndMeiosis #BotanicalResearch"

Which of the following is the testcross? How to find if the plant is homozygous or heterozygous? testcross A test cross is a way to explore the genotpye of an organism. Early use of the test cross was as an experimental mating test used to determine what alleles are present in the genotype. An organism's genetic makeup is called its genotype, and it reflects all of the alleles, or forms of the gene, that are carried by the organism. Consequently, a test cross can help determine whether a dominant phenotype is homozygous or heterozygous for a specific allele. Diploid organisms, like humans, have two alleles at each genetic locus, or position, and one allele is inherited from each parent. Different alleles do not always produce equal outward effects or phenotypes. One allele can be dominant and mask the effect of a second recessive allele in a heterozygous organism that carries two different alleles at a specific locus. Recessive alleles only express their phenotype if an organism carries two identical copies of the recessive allele, meaning it is homozygous for the recessive allele. This means that the genotype of an organism with a dominant phenotype may be either homozygous or heterozygous for the dominant allele. Therefore, it is impossible to identify the genotype of an organism with a dominant trait by visually examining its phenotype. To identify whether an organism exhibiting a dominant trait is homozygous or heterozygous for a specific allele, a scientist can perform a test cross. The organism in question is crossed with an organism that is homozygous for the recessive trait, and the offspring of the test cross are examined. If the test cross results in any recessive offspring, then the parent organism is heterozygous for the allele in question. If the test cross results in only phenotypically dominant offspring, then the parent organism is homozygous dominant for the allele in question. Youtube video: https://lnkd.in/dK5TFt8d \#nikolays_genetics_lessons

Big boost for new epigenetics paradigm: CoRSIVs, first discovered in humans, now found in cattle Credit: CC0 Public Domain A study published in Genome Biology opens new possibilities to improve production efficiency in the cattle industry and potentially animal agriculture more broadly. A team of researchers at Baylor College of Medicine, Cornell University and the USDA discovered that, like humans, cattle have CoRSIVs. CoRSIVs are regions of ... Read more here: https://lnkd.in/d9aPcD3H . . Like ?? Comment below ? Share ? For More Such Updates Follow Us @qnewshub @qnewscrunch . . #qnewshub #qnewscrunch #Science

Happy #ValentinesDay! ?? ?? On a day that celebrates our relationships with each other, we are thinking of the many things redwoods have to teach us about interdependence and relationships. Did you know that coast redwoods grow more successfully from sprouts that emerge from existing roots? After facing threats like logging and fires in the Santa Cruz mountains, a redwood will sprout new trees from its roots, sometimes resulting in “fairy rings”. Newer research has revealed that these circles can include both genetic and chosen kin—composed of the clonal sprouts of the parent tree, genetically unique redwoods, and even other species of trees. In many ways, like us, it is because of a diversity of interdependent relationships that redwoods are stronger. Learn more about what redwoods have to teach us about interdependence: https://lnkd.in/gKnK9RCp

Join me as we explore the world of new fruit hybridization with "All New At Zaiger Genetics" How time and experience results in the creation of some of the worlds finest fruit varieties

?? Genes are the basic unit of information that an organism relies on to stay alive. Genes give instructions on what to do and when to do it. At first glance they look a little ambiguous, just like that instruction booklet with no words and only the diagrams to follow. Many people have spent decades decoding the information hidden in our cells. Starting with the basics, genes are made of DNA, a set of readable building blocks, when DNA is strung together into genes they encode all the information needed to act: it's like an organism's instruction manual. ?? The basic of these "commands" are universal: written so that any living organism can read and interpret them, with a few limitations here and there. A single cell?? can contain the information needed to give rise to an entire organism. For example, a single cell of a sequoia can give rise to a whole gigantic tree on its own??. A cell that develops into part of a skeleton as different as those of a bird, a whale, or a human also starts by encoding the information in genes. So, if any organism can read this information, can we ask it to do something particular? ?? Stay tuned for our next posts; let’s dive in! #Genes #DNA #Organisms #Life

Progressive Farm Program to highlight the importance of genetics This series will aim to highlight the benefits of using the right genetics, and how doing so can improve overall on farm efficiency and ultimately, profit. The Progressive Farm Program series is brought to you by?Agriland?Media in collaboration with Progressive Genetics?and AgriNet Herd App

Today we will talk about another type of sampling within WP3 of the #LIFECyanobloom project in the Urrunaga reservoir by AnbioTek sl: complete sampling, which is activated when the phycocyanin values recorded with the probe exceed a certain threshold. From that moment on, sampling is carried out twice a week and, in addition, water samples are collected for chlorophyll analysis by spectrophotometry, phytoplankton samples for taxonomic analysis and water samples for genetic analysis. #LIFEProgramme #WaterReuseEU #WaterPotableEU #EUBiodiversity #Natura2000 #EUGreenDeal #SustainableFinanceEU

Happy Tilapia Tuesday! At Spring Genetics, we are fortunate to collaborate with the largest tilapia producers in the world. However, we also cherish our ability to supply top-tier genetics to small and medium farmers, contributing significantly to global food security. This commitment drives us to continue investing in genetic advancements! We invite you to watch the following video to learn more about Spring Genetics: