Videos
Where would you look to find the gametophyte generation of a flowering plant?
- a. at the shoot apical meristem
- b. at the root apical meristem
- c. in seeds
- d. in flower parts
- e. Flowering plants lack a gametophyte generation.
Introduction: The life cycle of plants is divided into the sporophytic and the gametophytic generations. In angiosperms, the dominant generation is the sporophytic generation. The gametophytic stage is haploid, while the sporophytic stage is diploid.
Answer to Problem 1TY
Correct answer: To find the gametophyte generation of a flowering plant, one would look in flower parts. Hence, the correct answer is option d.
Explanation of Solution
Reason for correct answer:
A dependent and highly reduced gametophytic stage is seen in angiosperms. This is represented by the male and female gametophytes of the plant. The male and female gametophytes produce gametes, and undergo sexual reproduction to produce the sporophytic stage of the plant. The male and female gametophytes are present inside the flower parts of the plant.
Option d. is given as “in flower parts”.
The gametophytic stage of a flowering plant is represented by the male and female gametophytes found in the flower of the plant. Hence, the correct answer is option d.
Reasons for incorrect answer:
Option a. is given as, “at the shoot apical meristem”.
The shoot apical meristem contains cells which divide continuously so that the plant grows along the shoot axis. Cells are added and differentiated in this region. These cells are diploid and they divide asexually. Cells of the shoot apical meristem are a part of the sporophytic generation of plants and not the gametophytic generation. Hence, option a. is incorrect.
Option b. is given as, “at the root apical meristem”.
The root apical meristem contains cells which divide continuously so that the plant grows along the root axis. These cells are diploid and they divide asexually. Cells of the root apical meristem are a part of the sporophytic generation of plants and not the gametophytic generation. Hence, option b. is incorrect.
Option c. is given as, “in seeds”.
Seeds are formed post fertilization, which means that the gametes have fused with each other to give a diploid seed. Seeds germinate to give rise to the sporophytic generation of the plant. Hence, option c. is incorrect.
Option e. is given as, “Flowering plants lack a gametophyte generation”.
Flowering plants have both sporophytic as well as a gametophytic stage. The sporophytic stage is diploid and it is the dominant stage. However, the gametophytic stage, represented by the male and female gametophytes is haploid. It is reduced and dependent on the sporophyte. Hence, option e. is incorrect.
Hence, the options a., b., c. and e. are incorrect.
Thus, one would find the gametophytic generation of a flowering plant in the flower parts.
Want to see more full solutions like this?
Chapter 35 Solutions
Gen Combo Ll Biology; Connect W/learnsmart Labs Access Card
- UARDIAN SIGNA Life Sciences/ Baseline Test Grade 10 ry must be written in point form. pot in full sentences using NO MORE than 70 words sentences from 1 to 7. only ONE point per sentence. words as far as possible. number of words you have used in brackets at the end GDE/2024 QUESTION 3 The table below shows the results of an investigation in which the effect of temperature and light on the yield of tomatoes in two greenhouses on a farm was investigated. TEMPERATURE (°C) AVERAGE YIELD OF TOMATOES PER 3.1 PLANT (kg) LOW LIGHT LEVELS HIGH LIGHT LEVELS 5 0,5 0,5 10 1,5 2,5 15 3,0 5,0 20 3,6 8,5 25 3,5 7,8 30 2,5 6,2 State TWO steps the investigator may have taken into consideration during the planning stage of the investigation. (2) 3.2 Identify the: a) Independent variables (2) b) Dependent variable (1) 3.3 Plot a line graph showing the results of the average yield of the tomatoes from 5°C to 30°C for low light levels. (6) 3.4 State ONE way in which the scientists could have improved the…arrow_forwardExplain why you chose this mutation. Begin by transcribing and translating BOTH the normal and abnormal DNA sequences. The genetic code below is for your reference. SECOND BASE OF CODON כ FIRST BASE OF CODON O THIRD BASE OF CODON SCAGUCAGUGAGUCAG UUU UUC UCU UAU UGU Phenylalanine (F) Tyrosine (Y) Cysteine (C) UCC UAC UGC Serine (S) UUA UUG Leucine (L) UCA UCG_ UAA UGA Stop codon -Stop codon UAG UGG -Tryptophan (W) CUU CUC CCU CAU CGU Histidine (H) CCC CAC CGC -Leucine (L) Proline (P) CUA CCA CAA CUG CCG CAG-Glutamine (Q) -Arginine (R) CGA CGG AUU ACU AAU AGU AUC Isoleucine (1) Asparagine (N) ACC AAC Threonine (T) AUA ACA AAA Methionine (M) Lysine (K) AUG ACG Start codon AAG AGC-Serine (S) -Arginine (R) AGA AGG GUU GCU GAU GUC GUA GUG GCC Valine (V) -Alanine (A) GCA GCG GAC GAA GAG Aspartic acid (D) GGU Glutamic acid (E) GGC GGA GGG Glycine (G) In order to provide a complete answer to the question stated above, fill in the mRNA bases and amino acid sequences by using the Genetic Code…arrow_forwardidentify the indicated cell in white arrowarrow_forward
- Gloeocaspa Genus - diagram a colony and label the sheath, cell wall, and cytoplasm. Oscillatoria Genus - Diagram a trichome, and label the shealth and individual cells Nostoc Genus- diagram a sketch of the colonoy microscopically from low power to the left of the drawing. Draw a filament showing intercalary heterocysts, and vegatative cells to the right of the drawing Merismopedia Genus- diagram a sketch of the colony. draw and label a filament showing the colony, cell wall, and sheath. Gloeotrichia Genus- diagram a habit sketch of the colony. draw a filament showing the heterocyst, akimetes and vegatative cells of the filamentarrow_forwardOf this list shown, which genus does the image belong toarrow_forwardidentify the cell shownarrow_forward
- identify the genusarrow_forwardWhat Genus is this?arrow_forwardAs a medical professional, it is important to be able to discuss how genetic processes such as translation regulation can directly affect patients. Think about some situations that might involve translation regulation. Respond to the following in a minimum of 175 words: Why is translation regulation important? What are some examples of translation regulation in humans? Select one of the examples you provided and explain what happens when translation regulation goes wrong.arrow_forward
- The metabolic pathway below is used for the production of the purine nucleotides adenosine monophosphate (AMP) and guanosine monophosphate (GMP) in eukaryotic cells. Assume each arrow represents a reaction catalyzed by a different enzyme. Using the principles of feedback inhibition, propose a regulatory scheme for this pathway that ensures an adequate supply of both AMP and GMP, and prevents the buildup of Intermediates A through G when supplies of both AMP and GMP are adequate.arrow_forwardQUESTION 27 Label the structures marked A, B, C and explain the role of structure A. W plasma membrane For the toolbar, press ALT+F10 (PC) or ALT+FN+F10 (Mac). BIUS ☐ Paragraph Π " ΩΘΗ Β Open Sans, a... 10pt EEarrow_forwardexamples of synamptomorphyarrow_forward
Biology (MindTap Course List)BiologyISBN:9781337392938Author:Eldra Solomon, Charles Martin, Diana W. Martin, Linda R. BergPublisher:Cengage Learning
Concepts of BiologyBiologyISBN:9781938168116Author:Samantha Fowler, Rebecca Roush, James WisePublisher:OpenStax College
Biology: The Dynamic Science (MindTap Course List)BiologyISBN:9781305389892Author:Peter J. Russell, Paul E. Hertz, Beverly McMillanPublisher:Cengage Learning
Biology Today and Tomorrow without Physiology (Mi...BiologyISBN:9781305117396Author:Cecie Starr, Christine Evers, Lisa StarrPublisher:Cengage Learning