Annals of RSCB Vol. XVIII, Issue 1/2013

Similar documents
GENOTOXIC EFFECTS OF ELECTROMAGNETIC EXPOSURE TO ELF FIELDS INVESTIGATED AT THE LEVEL OF MERISTEMATIC TISSUES *

Mitotic index and Duration of the cell cycle

Cytological effects induced by Agil herbicide to onion

Science 10-Biology Activity 12 Experiment on Observing Cell Division

ON THE ACTIVITY OF AMYLASES DACTYLIS GLOMERATA

Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

GENOTOXIC EFFECTS OF SODIUM NITRATE IN ONION ROOTS

Effects of radiofrequency radiation on root tip cells of Zea mays

Cell Cycle Phase. Interphase (G 1, S, G 2 ) Mitotic Phase (M phase) Prophase. Metaphase. Anaphase. Telophase

Effects of Some Growth Substances on Mitosis

Toxicity and Genotoxicity of Pendimethalin in Maize and Onion

Mitosis in Plant Cells Lab

CYTOGENETICAL EFFECT OF SOME POLYPHENOL COMPOUNDS SEPARATED FROM INDUSTRIAL BY-PRODUCTS ON MAIZE (Zea mays L.) PLANTS

Stages of Mitosis. Introduction

Mitosis in Onion Root Tip Cells

MITOSIS INTRODUCTION. Cytokinesis. centromere. DNA Replication S-Phase. One Chromosome Two Chromatids. One Chromosome No Chromatids 10.

Unit 6: Study Guide Cell Division. diploid gene allele interphase (G1, S, G2) prophase metaphase anaphase

ON SOME GENOTOXIC EFFECTS OF UV-C RADIATION IN ROOT MERISTEMES IN CUCURBITA PEPO L.

BIOLOGY LTF DIAGNOSTIC TEST CELL CYCLE & MITOSIS

THE INFLUENCE OF SIMAZIN ON THE MITOTIC CHROMOSOMES OF VICIA SATIVA L

STUDIES ON FUNGAL POPULATION OF CUMIN (NIGELLA SATIVA L.) FROM DIFFERENT PARTS OF MARATHWADA.

You should wear eye protection throughout this practical.

THE INFLUENCE OF CERTAIN HEAVY METALS ON SEEDS GERMINATION AT LENS CULINARIS MEDIK AND PISUM SATIVUM L. Introduction

Gametogenesis. To complete this worksheet, select: Module: Continuity Activity: Animations Title: Gametogenesis. Introduction

Push down hard on the cover slip, but do not push the cover slip sideways

Onion Root Tip Lab Report

BIOH122 Session 26 Gametogenesis. Introduction. 1. a. Define gametogenesis. b. What cells are gametes?

Mitosis in Onion Root Tip Cells

STUDY OF MITOTIC ACTIVITY AND CHROMOSOMAL BEHAVIOUR IN ROOT MERISTEM OF Allium cepa L. TREATED WITH MAGNESIUM SULPHATE

LAB. MITOSIS AND CANCER PART 1. NORMAL MITOSIS IN PLANTS FIGURE 1. DIAGRAMATIC GUIDE TO THE STAGES OF MITOSIS

Mitosis: Cell Division

Science 10-Biology Activity 11 Worksheet on Cell Reproduction

Genotoxicity of Caffeinated Soft Drinks on Meristematic Root Cells of Allium Cepa

Cytological Effects of Paper Mills Effluents on Somatic Cells of Allium cepa

LAB EXPERIMENT 4: Mitosis in Onion Root Tip Cells

The Cell Cycle. Packet #9. Thursday, August 20, 2015

The Cell Cycle MITOSIS

Chapter 8: Cellular Reproduction

Unduplicated. Chromosomes. Telophase

DETERMINANT VALUE OF THE CYTOGENETIC AND MOLECULAR IMATINIB THERAPEUTIC RESPONSE IN CHRONIC MYELOID LEUKEMIA

Mitosis: Cell Division

Cell Division. Learning Objectives: Introduction. Revised Fall 2018

===================================================================================== Biological Diversity and Conservation

Introduction: Alprazolam is a triazolobenzodiazepine used in panic disorders and other anxiety

Cell Division. The Process of Cell Division Section Section 10.2: The Process of Cell Division 12/8/2010

Cell Division Questions. Mitosis and Meiosis

Meiosis. Formation of gamete = egg & sperm. Occurs only in ovaries and tees. Makes cells with haploid chromosome number

Unit 5: Cell Cycle, Mitosis, Meiosis & Drug Influence Influence on Nervous System

Chromosomes & Cell Division

1. The diagram shows four stages in mitosis. Only one pair of homologous chromosomes is shown. A B C D ... (1) ... (1)

Unit 4: Reproduction. Traits. Heredity. Nucleus: The Control Center. DNA deoxyribonucleic acid 09/06/2016

Name: Date: Block: 10-2 Cell Division Worksheet

Section 10 1 Cell Growth (pages )

Meiosis. Oh, and a little bit of mitosis

Cytological Studies on the Responses of Onion Root - Tip Cells to Water-Soluble Tobacco Smoke Extracts from Various Experimental Cigarettes1

Creating Identical Body Cells

Biology 4A Laboratory MITOSIS Asexual Reproduction OBJECTIVE

EFFECTS OF CHRONIC GAMMA IRRADIATION ON SHALLOT CHROMOSOMES (Allium ascalonicum Linn)

10-2 Cell Division. Chromosomes

Name: Cell division and cancer review

The Cell Cycle. Chapter 10

Major concepts: Notes: Cell Reproduction: From One Cell to Two. Why do Cells Reproduce?

Chapter 10 Cell Cycle

Cell Cycle. Interphase, Mitosis, Cytokinesis, and Cancer

Onion (Allium cepa) genotoxicity test

Why do cells divide? Cells divide in order to make more cells they multiply in order to create a larger surface to volume ratio!!!

10-2 Cell Division mitosis. cytokinesis. Chromosomes chromosomes Slide 1 of 38

Cell plate Carcinogen Oncogenes. Haploid cell Diploid cell Chromosome. Telophase Keywords Mitosis

A. Incorrect! All the cells have the same set of genes. (D)Because different types of cells have different types of transcriptional factors.

Cell Division Mitosis Notes

Cytogenetic Effects of Fungicide Afugan on the Meristematic Cells of Allium cepa L.

GENOTOXIC EFFECT OF FOUR MEDICINAL PLANT EXTRACTS ON PISUM SATIVUM CV. ARIKIL SAZADA SIDDIQUI*

BIL Mechanisms of Mitosis PART III. Collecting Data

Chromosomes and Cell Cycle

Prentice Hall Biology Slide 1 of 38

Unit 4: Cell Division Guided Notes

Mitosis and Meiosis. See Mitosis and Meiosis on the class web page

T R L J. Version 2, 2018 NAME: OPTION GROUP: CELL DIVISION MITOSIS WORKBOOK

KEY CONCEPT Cells have distinct phases of growth, reproduction, and normal functions. The cell cycle has 4 main stages. The cell cycle is a regular

The Cell Cycle and Cell Division

Genotoxicity of Euphorbia hirta: An Allium cepa Assay

Outline Interphase Mitotic Stage Cell Cycle Control Apoptosis Mitosis Mitosis in Animal Cells Cytokinesis Cancer Prokaryotic Cell Division

UNIDENTIFIED MULTIABERRANT CELLS AS EVIDENCE OF γ-irradiation IN Allium cepa L.

6 REPLICATED CHROMOSOMES

Sexual Reproduction and Genetics. Section 1. Meiosis

How do living things Sexually Reproduce?

EFFECTS OF DITHANE M-45 (A FUNGICIDE) ON ROOT MERISTEM OF VIGNA MUNGO (L.) HEPPER

Cell Division Mitosis Notes

Gametocidal chromosomes enhancing chromosome aberration in common wheat induced by 5-azacytidine

The Cell Cycle Guided Reading

Science Lesson Plan Submission Profile Report

Meiosis & Sexual Reproduction. AP Biology

The Cell Cycle CHAPTER 12

CELL CYCLE INTRODUCTION PART I ANIMAL CELL CYCLE INTERPHASE

Evaluation of cytotoxic effects of synthetic pesticide attack on root meristems of Allium cepa L.

Mitosis. AND Cell DiVISION

Mitosis: cell division that forms identical daughter cells with the same number of chromosomes as the parent cell (duplicate and divide)

MITOSIS: Making New Body Cells Making New DNA. The Cell Cycle and Mitosis Notes Page THE CELL CYCLE

Lesson 1 Instructional Materials. What do you OBSERVE about this image? State what you SEE, not what you think.

_??_ 1987 by Cytologia, Tokyo C ytologia 52: , Meiotic Abnormalities Induced by Dye Industry Waste Water in Chlorophytum amaniense Engler

Transcription:

Annals of RSCB Vol. XVIII, Issue /3 CYTOGENETIC EFFECTS INDUCED BY DEPOSIT MYCOFLORA IN PHASEOLUS VULGARIS L. BEANS FROM THE COLLECTION OF SUCEAVA GENEBANK Diana Batîr-Rusu, C. Tudose * SUCEAVA GENEBANK, COLLECTING DEPARTMENT UNIVERSITY AL.I.CUZA IAŞI, FACULTY OF BIOLOGY, DISCIPLINE OF GENETICS Summary Continuing our previous studies regarding the effects induced by deposit mycoflora in various species, the purpose of our work was to study the cytogenetic effects induced by deposit mycoflora in Phaseolus vulgaris L. (n = ) beans from the collection of Suceava Genebank. Cytogenetic effects were studied by means of classical plant chromosomes methods of study. We have observed that the values of the mitotic indexes are decreasing in accordance with the increasing of the storage age and also with the number of mycoflora species that are infesting the beans. Infestation with specific mycoflora produced a relatively large number, statistically significant by comparison to the controls, of interphasic aberrations and also of chromosomal aberrations in mitosis ana-telophase in all studied probes. Comparing our results with similar published data, we can strongly state that the cytogenetic effects induced by deposit mycoflora in Phaseolus vulgaris seeds are similar with those produced by the action of a weak mutagenic agent Key words: Phaseolus vulgaris beans, deposit mycoflora, cytogenetics cristian.tudose@uaic.ro Introduction Continuing our previous studies regarding the effects induced by deposit mycoflora in various species seeds from the collection of Suceava Genebank (Batîr- Rusu and Tudose, 9 a,b), the purpose of our work is to study the cytogenetic effects induced by deposit mycoflora in Phaseolus vulgaris L. (n = ) beans from the above mentioned collection. Cytogenetic effects were studied by means of: calculation of the mitotic index and frequency of mitosis phases, registration of the frequency and types of abnormal interphases and identification of chromosomal aberrations in mitotic ana-telophases, in accordance with classical plant cytogenetics methods. Materials and Methods The biological material consisted of five probes of beans selected from the collection of Suceava Genebank: - The control: 3777, 5 years old, germination ratio %, probe with minimal infestation by mycoflora, 7 - SVGB 4, 6 years old, germination ratio 93%, infested by Penicillium sp., Aspergillus sp. Rhizopus sp., Alternaria alternata, and Stemphylium botryosum - SVGB 46, 6 years old, germination ratio 87%, infested by Penicillium sp., Rhizopus sp., Trichothecium roseum and Trichoderma viride - SVGB 375, 5 years old, germination ratio 93%, infested by Penicillium sp., Cladosporium herbarum, Alternaria alternata, Trichoderma viride and Stemphylium botryosum - SVGB 3775, 5 years old, germination ratio 73%, infested by Penicillium sp. Rhizopus sp., Epicoccum sp. and Trichoderma viride The beans germinated in Petri dishes, on filter paper, wetted with distilled water for all variants till the roots reached -5 mm in length. We calculated the germination percent and the duration of germination for all experimental variants. When the roots

Annals of RSCB Vol. XVIII, Issue /3 reached the length of -5 mm they were fixed in Battaglia for 3 minutes. We have performed fast cytological slides according to Feulgen method (Cimpeanu at al., ). We have studied:. The mitotic index and frequency of mitosis phases. The frequency and types of aberrant interphases 3. The frequency and types of chromosomal aberrations in mitotic ana-telophases (A-T). We have analysed this 3 steps on 5 fresh preparations. For each slide we have studied: microscopic fields (objective 4x) on which we have counted all the cells in interphase, prophase, metaphase, anaphase and telophase; microscopic fields on which were counted all the cells in normal and abnormal interphases and the type of interphasic aberrations and 5 anatelophases were analysed, counting the normal, aberrant ana-telophases and the type of chromosomal aberrations. All data were statistically processed (Fowler and Cohen, 99). Microphotographs were performed with the digital camera of Nikon research microscope with the X objective. Results and Discussions The infestation with fungi generally determined a significant decrease of the mitotic index (Table ). Only for the 4 probe the frequency of dividing cells is 4,3%, a very close value to the mitotic index registered for the control (4,66%) (fig. ). The lowest value of the mitotic index (,%) was observed for the 3775 probe. The values of the mitotic index are proportionally decreasing with the increase of the number of infesting species of fungi and with the storage age of beans. For the majority of probes, and also for the controls, we have recorded a predominance of prophases, followed by metaphases and telophases. Anaphases were recorded only for controls, but in a very small percentage (Table and Figure ). An exception was noted for the probe 3775 where the frequency of prophases was low and metaphases were predominant. The frequency of metaphases, generally low, isn`t decreasing or increasing significantly in comparison with the controls. The frequency of telophases is decreased for all probes in comparison to the controls. % dividing cells 5 4 3 4.66 4.3 3.53.63. Control 4 46 375 3775 Fig. : Mitotic index in Phaseolus vulgaris L. studied probes 7

Annals of RSCB Vol. XVIII, Issue /3 Division phases % 3.5 3.5.5.5 3.33.86.5.43 Control 3..3 4.6.4.8 46.8.73.76 375.67.43.3 3775. Prophases Metaphases Anaphases Telophases Fig. : The frequency of mitosis phases in Phaseolus vulgaris L. studied probes Infestation with fungi induced the increase of interphasic aberrations in all the studied probes (Table and Fig. 3). The highest frequency of aberrant interphases (,94%) was registered for 3775 probe. For the other probes the registered values are similar and quite low, but, in comparison to the very small value of aberrant interphases counted in the control probes (,5%), we can state that the infestation with mycoflora induced a statistically significant increase of interphasic aberrations, without regard to the type of fungi or to the age of probes. The most frequent interphasic aberration is represented by the binucleated cells, which frequency is increasing proportionally with the age of probes and with the number of infesting mycoflora species (Fig. 4). In 4 and 375 probes the infesting mycoflora induced some interphases with one micronucleus and, in a very low percentage, interphases with two micronuclei. Analysing all the mentioned data in comparison with data from literature (Bara, 8; Maniu et al., 5) we can strongly state that the cytogenetic effects induced by deposit mycoflora in Vicia faba beans are similar with those produced by the action of a weak mutagenic agent. %Aberrant interphases.5.5.5.5 Control.45.5 4 46.68 375.94 3775 Fig. 3: Total frequencies of aberrant interphases in Phaseolus vulgaris studied probes 7

Annals of RSCB Vol. XVIII, Issue /3 Aberration types%.8.6.4..8.6.4...5 Control.8.3.4 4.5 46.64.86.4.4.4 375 3775 Binucleated cells Interphases with one micronucleus Interphases with two micronuclei Fig. 4: Frequency of interphasic aberrations types in Phaseolus vulgaris L.studied probes Analysing the data from table 3 one can observe that both for the control, 46 and 3775 probes were registered chromosomal aberrations in mitosis ana-telophase. In the rest of two probes the number of observed anatelophases was too small to perform statistic analysis. The highest percentage of aberrant ana-telophases (3,5%) was observed for the 3775 probe (Fig. 5). The chromosomal aberrations types show a great variety, being distributed randomly (Fig.6). % Aberrant ana-telophases 4 3.5 3.5.5.5 3.5.5 Control 46 3775 Fig. 5: Total frequency of aberrant ana-telophases in Phaseolus vulgaris L. studied probes 73

.5.5.5.5.5.5 Annals of RSCB Vol. XVIII, Issue /3. One bridge One micronucleus % A-T aberrations.8.6.4..5.5.5.5 Two micronuclei One bridge and two micronuclei Tripolar A-T Control 46 3775 Tripolar A-T with one expulsed Fig. 8: Frequency of chromosomal A-T aberrations in Phaseolus vulgaris L.studied probes We have observed and counted many simple chromosomal aberrations such as: one bridge, one micronucleus, two micronuclei, tripolar ana-telophases, expulsed chromosomes and some complex chromosomal aberrations such as: one bridge with two micronuclei, tripolar A-T with expulsed chromosomes, etc. The highest frequency was registered for tripolar ana-telophases and micronuclei. The increase of the number of aberrations in ana-telophase is statistically significant reported to the controls; comparing our results with similar published data (Bara, 8; Maniu et al., 5) we can strongly state that the cytogenetic effects induced by deposit mycoflora in Phaseolus vulgaris L. (n=) beans are similar with those produced by the action of a weak mutagenic agent. Conclusions. The values of the mitotic indexes are decreasing in accordance with the increasing of the storage age and also with the number of mycoflora species that are infesting the beans.. Infestation with specific mycoflora produced a relatively large number, 74 statistically significant by comparison to the controls, of interphasic aberrations and also of chromosomal aberrations in mitosis ana-telophase in all studied probes. 3. Comparing our results with similar published data, we can strongly state that the cytogenetic effects induced by deposit mycoflora in Phaseolus vulgaris L. seeds are similar with those produced by the action of a weak mutagenic agent. References Băra C.I.,- Radiaţia ultravioletă - factor mutagen fizic. Efecte ale iradierii cu UV la fasole (Phaseolus vulgaris L.), Ed. Universităţii Al.I.Cuza, Iaşi,3-4, 7 86, 8. Batîr-Rusu D., Tudose C., Cytogenetic effects induced by deposit mycoflora in Vicia faba L. beans from the collection of Suceava Genebank, Analele Ştiinţifice ale Universităţii Al. I. Cuza Iaşi, Secţiunea Geneticã şi Biologie Molecularã. TOM X, fasc.3: 7-4, 9. Batîr-Rusu D., Tudose C., Cytogenetic effects induced by deposit mycoflora in Zea mays L. beans from the collection of Suceava Genebank, Analele Ştiinţifice ale Universităţii Al. I. Cuza Iaşi, Secţiunea Geneticã şi

Annals of RSCB Vol. XVIII, Issue /3 Biologie Molecularã. TOM X, fasc.4: 49-54, 9 Cîmpeanu M., Maniu M., Surugiu C.I., Genetica metode de studiu, Ed. Corson, Iasi,. Fowler J., Cohen L., Practical statistics for field biology, Open University Press, New York, 99. Maniu M., Truta E., Tudose C., Maniu C., Efecte citogenetice induse de tratamentul singular şi combinat cu Oltisan extra şi UV-B la linia DH 74- de orzoaică de primavară, Analele Societatii Nationale de Biologie Celulara C. Craciun, A. Ardelean (editors), VII, :- 4, Maniu M., Tudose C., Tudose M., In vivo mutagenesis induced by sodium azide in DH-9 double haploid line of barley, Romanian Biotechnological Letters, (4):55-6, 5. 75

Annals of RSCB Vol. XVIII, Issue /3 Table : Frequency of mitoses and of mitosis phases in Phaseolus vulgaris L. studied probes Probes Total studied cells Total interphases Total mitoses Total prophases Total metaphases Total anaphases Total telophases Nr. Nr. % Nr. % Nr. % Nr. % Nr. % Nr. % Control 95,33 98 4,66 7 3,33 8,86,5 9,43 4 35 97 95,68 34 4,3 97 3, 3,3 - - 5,6 46 8 7 96,47 99 3,53 68,4 3,8 - - 8,8 375 35 96 97,37 79,63 5,73 3,76 - - 4,3 3775 8 787 98,79 34,,43 9,67 - - 3, Probes Table : Frequency of interphasic aberrations in Phaseolus vulgaris L. studied probes Aberration types Total Total normal Interphases studied Total aberrant cells interphases Binucleated cells with one cells micronucleus Nr. Nr. % Nr. % sx Interphases with two micronuclei ± Nr. % Nr. % Nr. % Control 996 99,75 5,5,6 4,,5 - - 4 97 98 98,55 43,45,3 35,8 7,3,4 46 7 66 98,48 4,5,3 4,5 - - - - 375 96 877 98,3 49,68,3 48,64,4 - - 3775 787 733 98,6 54,94,4 5,86,4,4 Probes Table 3: Frequency of chromosomal aberrations in mitosis ana-telophase (A-T) in Phaseolus vulgaris L. studied probes Types of chromosomal aberrations in mitosis A-T Total Tripolar A-T Studied Total abnormal One Two One bridge normal Tri-polar with A-T A-T One bridge micronucleunuclenuclei micro- + micro- A-T A-T expulsed chromosome 76 Expulsed chromosome Nr Nr % Nr % Nr % Nr % Nr % Nr % Nr % Nr % Nr %

Annals of RSCB Vol. XVIII, Issue /3 Control 98 99,,,5 - -,5 - - - - - - - - 95 97,5 5,5,5, - -,5,5 - - - - 3775 5 96,5 7 3,5,5, - -,5,5,5,5 77

2024 © healthdocbox.com Privacy Policy | Terms of Service | Feedback