Concept explainers
To explain: The archenteron.
Introduction: The process of gastrulation leads to the development of a structure called archenteron. Various types of structures and germ layers are formed during the process of gastrulation, which results in important morphogenesis of organism at the embryonic stage of their development.
To determine: Whether archenteron is formed in sea stars.
Introduction: The process of gastrulation leads to the development of a structure called archenteron. Archenteron can be defined as a primary type of gut that is formed during the gastrulation process of development of zygote. It is also known as the digestive tube and develops inside the endoderm and mesoderm layers of an animal.
To determine: Whether archenteron is formed in amphibians.
Introduction: The process of gastrulation leads to the development of a structure called archenteron. Archenteron can be defined as a primary type of gut that is formed during the gastrulation process of development of zygote. It is also known as the digestive tube and develops inside the endoderm and mesoderm layers of an animal.
To determine: Whether archenteron is formed in birds.
Introduction: The process of gastrulation leads to the development of a structure called archenteron. Archenteron can be defined as a primary type of gut that is formed during the gastrulation process of development of zygote. It is also known as the digestive tube and develops inside the endoderm and mesoderm layers of an animal.
Want to see the full answer?
Check out a sample textbook solutionChapter 51 Solutions
Mindtap Biology, 1 Term (6 Months) Printed Access Card For Solomon/martin/martin/berg's Biology, 11th
- Describe how the inflammation response starts including the sentinel cells and the chemicals involved. How do pathogens trigger the response particularly in the skin?arrow_forwardHow does complement promote the immune response? Describe three waysarrow_forwardWhich of the following is not a possible mechanism for autoimmunity? Select one: A. Abnormal expression of MHC II molecules in non-antigen-presenting cells B. Activation of polyclonal B cells C. Polymorphism of HLA alleles D. Molecular mimicry E. Release of sequestered antigensarrow_forward
- WRITTEN WORK 3: NON-MENDELIAN GENETICS Part A: Complete the Punnett square and calculate for the probability of genotype and phenotype. i i Genotype: Phenotype: 08:55arrow_forward1:42 PM ១ 99% Apart from food, plants need other nutrients like water and minerals. Nitrogen, a mineral, is an important part of all living cells. All organisms need nitrogen in order to grow and repair. Although nitrogen exists in its elemental form in the atmosphere, it cannot be directly used by plants. 7 Where else can plants obtain their nitrogen from? Plants make their own nitrogen. B Plants get it from animals. Plants get it from the soil. D Plants have special structures to break down atmospheric nitrogen. v3.7.63.140.4 | 6763e9417a3dbb80fa0f87b2 | Dec 19, 2024 | 3:07 PM | 84126 | en_8arrow_forwardCompare the cloning efficiencies: SmaI vs. EcoRI.arrow_forward
- Hydrogen bonds play an important role in stabilizing and organizing biological macromolecules. Consider the four macromolecules discussed. Describe three examples where hydrogen bond formation affects the form or function of the macromolecule.arrow_forwardImagine you are a botanist. Below are characteristics of a never-before described plant species recently identified as part of the ‘All Taxa Biodiversity Inventory’ (ATBI). Field Notes: Specimen collected from shaded area along stream in South Cumberland State Park (Grundy County, TN). Laboratory Analysis: Body: Large leaves emerging from underground rhizome. Size: 63 cm Chromosomal Analysis: Plant body is diploid—chromosome number of 44. Lignin test: Positive Cuticle: Present Leaves: Present—large with branched veins. Underside has sori (containing haploid spores). Roots: Present—branch from the inside. Stem: Present—vascular tissue (xylem & phloem) present. Life History: Diploid sporophyte dominant generation. Haploid spores germinate into heart-shaped, haploid, gametophyte. Water required for fertilization; no seed is produced. Diploid zygote develops into sporophyte. Explain which domain, kingdom and phylum you believe this plant should be classified…arrow_forwardCUÁ Glycine A C C Newly formed molecule Glycine Arginine Proline Alanine A C C CC G GGAUUGGUGGGGC Structure X I mRNAarrow_forward