performance task preview\n\ndirections: the performance task will provide you with an opportunity to…

performance task preview\n\ndirections: the performance task will provide you with an opportunity to demonstrate your learning at the end of each module. this page provides a preview of that performance task. read the prompt and product sections below. then using what you currently know, predict the outcome of the investigation. you will revisit your prediction at the end of the performance task and apply evidence from the module to see if your prediction was correct.\n\nproduct: in this performance task, you will build a fictional animal from a group of traits. you will follow specific instructions for how living things are made, from the genetic level to the physical level, as you build your animal.\n\nprompt: there is variation between all individuals within a species. every organism is a unique collection of shapes, colors, tissues, etc. how do you think these traits are linked? if an organism receives one trait, does that determine other traits or features?\n\nprediction:
Answer
Brief Explanations:
The prompt asks for a prediction regarding how traits are linked and whether one trait determines others. In genetics, traits are linked through DNA sequences located on the same chromosome, a phenomenon known as genetic linkage. Furthermore, a single gene can influence multiple physical features, which is called pleiotropy. While some traits are inherited independently according to Mendel's Law of Independent Assortment, others are physically connected or biologically dependent on the same underlying genetic instructions. Therefore, receiving one specific genetic trait can often be associated with or determine the presence of other specific features.
Answer:
Traits are linked through their placement on chromosomes and the specific DNA sequences inherited from parents. If an organism receives one trait, it may determine other features because genes located close together on the same chromosome tend to be inherited together (genetic linkage), or a single gene may control multiple phenotypic characteristics (pleiotropy).