Tuesday, November 29, 2016

PLANT KINGDOM

N C E R T -11-CHAPTER-3

PLANT KINGDOM


  • Artificial classification – oldest classification and it is based on few vegetative and sexual characters. 
  • Natural classification system – it is based on natural affinities among the organisms  in their external and internal features. 
  • Phylogenetic classification system–it is based on evolutionary relationship 
  • Numerical taxonomy – by using computers numbers and codes are assigned to all the characters and data are processed. 
  • Cytotaxonomy – it is based on cytological information like chromosome number, structure and behavior. 
  • Chemotaxonomy–it is based chemical constituents of the plants.

1.ALGAE:

  • Simple, thalloid, autotrophic, aquatic organisms. 
  • Habitats–grow in moist soil and wood. 
  • Symbiotic( Lichens) grow on other animals (sloth bear) 
  • Size ranges from Unicellular colonial (volvox),Filamentous ( spirogyra) and Massive bodies (kelp) 
  • Reproduce vegetatively, asexually and sexually 
  • Spores are Zoospores (male) isogamous / anisogamous; Oospores (egg).


Economic importance:
1. Porphyra, Laminaria,  Sargassum are used as food.
2. Marine brown algae (Algin) and red algae (Carrageen) are used as Hydrocolloids, which is a fibrous structure holds water  and used to transport seedling.
3. Gelidium, Graularia are usedtogrow microbes, makeice creams and jellies.
4. Chlorella and Spirullina are rich in proteins and used as food supplements.

Alage is divided into 3 main classes-
a) Chlorophyceae–green algae
b) Phaeophyceae–brown algae
c) Rhodophyceae–red algae

a)Chlorophycease(Green algae):  
Colonial / filamentous / unicellular 
Possess chlorophyll a & b 
Stored with proteins / starch 
Some store oil forms 
Cell wall is rigid and made of inner cellulose and outer pectose
Vegetative reproduction is by fragmentation / spores 
Asexual reproduction is biflagellated Zoospores 
Sexual reproduction is by isogamous / anisogamous / oogamous 
Examples :-Volvox, Spirogyra, Chlamydomonas

b)Phaeophyceae(Brown algae): 
Marine habitats–vary in size and form from simple branched to filamentous form, Kelp (100 m) possess chlorophyll a&c, carotenoid, Xanthophylls and Fucoxanthin. 
Food is stored as carbohydrates in the form of Laminarin / Mannitol 
They have cellulose wass with gelatinous coating of algin. 
They are attached to substratum by Holdfast (root like), Stalk (stipe) and leaf (frond) 
Vegetative reproduction by fragmentation 
Asexual reproduction is by biflagellated zoospores 
Sexual reproduction is by Isogamous / Anisogamous / Oogamous.
Examples :-Laminaria, Sargassum, Ectocarpus, Dictyota, Fucus.

c)Rhodophycease( Red algae): 
They have red pigment called “r-phycoerythrin”. 
They are marine. 
Food is stored as Floridean starch, which is similar to amylopectin and glycogen in structure. Vegetative reproduction is by fragmentation. 
Asexually by non-motile spores. 
Sexually by non-motile gametes.
Examples :-Porphyra, Gracilaria, Gelidium.

2.BRYOPHYTES :-
They live in moist shaded areas in the hill. 
It is known as “amphibians of plant kingdom”. 
They occur in damp soil, humid and shaded places. 
Plant body lacks true roots, stem, leaves, they are attached to the substratum by unicellular / multicellular Rhizoids. 
The main plant is haploid and they produce gametes (Gametophyte–dominant). 
The male sex organ is Antheridium (antherozoids) 
The female sex organ is Archegonium (single egg) 
Antherozoids are released in water come into contact with Archegonium to form Zygote. 
Zygote develops into Sporophyte (diploid) undergoes meiosis to form haploid spores germinate to produce Gametophyte.

Economic importance:- 
Provide food for herbaceous mammals / birds.
Sphagnum species (mosses) provide peat, used as a fuel. 
Due to its water holding capacity is is used as packing material for trans-shipment of living materials. Mosses and Lichens form Pioneer community on bare rocks. 
Form dense mats on soil, so reduce the impact of rain and soil erosion.
Classes: -There are two classes- Liverworts, Mosses.

a)Liverworts: 
Moist, shady habitats, damp soil, bark of trees and deep in the woods. 
Plant body is Thalloid, have a tiny leaf structures. 
Asexual reproduction is by fragmentation / form gemmae (gree, multicellular, asexual bodies) they detach from parent body and form as a new individual. 
Sexual reproduction form male & female sex organs sporophyte is differentiated into a foot, setae and capsule. Spore germinate to form gametophyte.
Example :-Marchantia

b)Mosses:
Gametophyte shows two stages- Protonema (spores) and Leafy stage (Secondary protonema) Attached to the soil by Rhizoids 
Vegetative reproduction is by fragmentation /budding 
Sexual reproduction is by antheridia and archegonia 
Zygote develops into sporophyte and form capsule and it contains spores (haploid)
Example :-Sphagnum, Funaria

3.PTERIDOPHYTES (first land plants):-
They are used for medical purpose, ornamental and as soil binders and first terrestrial plants.
They grow in cool, damp, shady places
Possess vascular tissues (xylem and phloem) 
Main plant body is Sporophytes 
The body is differentiated into true roots, stem and leaves.

Leaves may be small (microphylls–selaginella) or large (macrophylls–ferns) and bear sporangia and form sporophylls (leaf carrying spores). 
Sporangia produce spores by meiosis. 
Spore germinates to form gametophyte,called Prothallus. 
They need water for fertilization. 
Gametophyte bear male & female sex organs called Antheridia and Archaegonia respectively. Gamete fusion results in zygote formation. Zygote develops into sporophytes (dominant phase). 
If all the spores are similar kind, it is called Homospores. 
Selaginella produce two kinds of spores- Macro and Micro spores, hence known as Heterosporous.
Macro and Micro spores develop into female and male gametophytes respectively.
Female gametophyte retained on sporophyte. It leads to the development of seed habit.

Classes:-There are four classes in Pteridophytae;
a) Psilopsida–Ex.Psilotum 
b) Lycopsida–Ex.Selaginella 
c) Sphenopsida–Ex.Equisetum 
d) Pteropsida–Ex.Pteris

4. GYMNOSPERMS(Naked seeds)
They are seed bearing plants. 
The ovules are not enclosed in an ovary, so no fruits. 
Tallest gymnosperm is Sequoia (red wood tree) 
Plant body is differentiated into roots, stems and leaves 
Roots are tap root – associated with other organisms like Pinus roots with Mycorrhizae and Cycas roots with Cyanobacteria like Nostoc and Anabaena(nitrogen fixing microbes) 
Stem can be branched / unbranched 
Leaves are simple / needle like–leaves show Xerophytic adaptation 
Gymnosperms are heterosporous, produce microspores and megaspores 
They form male cones & female cones 
Both cones can occur on some plant / different.
Fertilization results in Zygote and embryo develops. 
Ovules form seeds. 
Gymnosperms show diplontic life cycle. 
They show Alternation of generation.
Examples ;-Pinus, Cycas, Cedrus.

5. ANGIOSPERMS(Flowering plants)-
They are flowering plants
Seeds are covered by fruits–live in wide range of habitats. 
Size variesfrom tiny microscopic Wolfia to tall trees Eucalyptus. 
Provide food, fodder, fuel and medicine. 
There are two classes:- 
Dicotyledons and Monocotyledons. 
Male sex organ is Stamen and Female is Pistil. 
Ovules have embryo sac; it undergoes meiosis and form egg apparatus with one egg and 2 synergids, 3 antipodal cells and 2 polar nuclei.
Polar nuclei fuses to form secondary polar nucleus. 
Pollen dispersal is by pollination – pollen tube grows in to stigma and style of pistil, one male gamete fuses with egg and form zygote and other male gamete fuses with secondary polar nucleus (2n) to form Primary Endosperm Nucleus (PEN-3n).
Due to two fusions, it is called Double fertilization.
a) Zygote ----->Embryo 
b) PEN -----> Endosperm (and nourishes embryo)
c) Synergids and antipodal cells ----->degenerate 
d) Ovules----->seeds 
e) Ovary----->Fruits


Wednesday, November 23, 2016

Biology facts

#BIOLOGY_FACTS
#QUICK_REVISION


  • Number of bones - 206
  • Number of muscles - 639
  • Number of kidneys - 2
  • Number of milk teeth - 20
  • Number of ribs - 24 (12 pairs)
  • Number of chambers in the heart - 4
  • Largest artery - Aorta
  • Normal Blood pressure - 120 - 80
  • pH of blood - 7.4
  • Number of vertebrae in the spine - 33
  • Number of vertebrae in the Neck - 7
  • No of bones in middle Ear - 6
  • Number of bones in Face - 14
  • Number of bones in Skull - 22
  • Number of bones in Chest - 25
  • Number of bones in Arms - 6
  • Number of bones in each human ear - 3 {malleus,incus,stapes}
  • Number of muscles in the human arm - 72
  • Number of pumps in heart - 2 -S A Node, A V Node
  • Largest organ - Skin
  • Largest gland - Liver
  • Smallest cell - Blood cell
  • Biggest cell - Egg cell (ovum)
  • Smallest bone - Stapes
  • First transplanted organ - Heart
  • Average length of small intestine - 7 m
  • Average length of large intestine - 1.5 m
  • Average weight of new born baby - 2.6 kg.
  • Pulse rate in one minute - 72 times
  • Body Temperature - 36.9o C (98.4o F)
  • Average blood volume - 4 - 5 liters
  • Average life of RBC - 120 days
  • Pregnancy period - 280 days
  • Number of bones in human foot - 33
  • Number of bones in each wrist - 8
  • Number of bones in hand - 27
  • Largest endocrine gland - Thyroid
  • Largest lymphatic organ - Spleen
  • Largest cell - Nerve cell
  • Largest part of brain - Cerebrum
  • Largest & strongest bone - Femur
  • Smallest muscle - Stapedius (Middle ear )
  • Number of chromosomes in human cell - 46 (23 pairs)
  • Number of bones in New born body - 300
  • Largest muscle - Buttock (Gluteus Maximus)

Monday, November 21, 2016

MNEMONICS

MNEMONICS

1. Prolactin and oxytocin functions.
    PROlactin stimulates the mammary glands to PROduce milk. 
    Oxytocin stimulates the mammary glands to Ooze (release) milk.

2. Hirsutism vs Virilism 
    Hirsutism: Hair on body like a male. 
    Virilism: Voice and rest of secondary sexual characteristics like a male.

3. Coagulation common pathway factors in order 
    10 + 5 - 2 = 13 
    Coagulation common pathway:- Factor X to Factor V to Factor II to Factor XIII

4. Hydrophobic Vs Hydrophilic amino acids

Friday, November 4, 2016

HUMAN REPRODUCTION

HUMAN REPRODUCTION

Notes based strictly on NCERT for rapid revision:-



The Male Reproductive System
It consists of :

  • The primary sex organs i.e. a pair of testes 
  • The secondary sex organs i.e. the duct system and the associated glands
  • External genitalia

Testes

  • Scrotum – a pouch in which testes are situated
  • Testicular lobules
  • Seminiferous tubules – contains Spermatogonia and Sertoli cells- Leydig cells

Accessory Ducts

  • Rete testis
  • Vasa efferentia 
  • Epididymis 
  • Vas deferens
  • Urethra

Accessory Glands

  • A pair of seminal vesicles
  • Prostate gland
  • Bulbourethral gland

Secretions of these glands constitute the seminal plasma rich in fructose , calcium and certain enzymes .
Secretions of bulbourethral glands also help in lubrication of penis.

External Genitalia

  • The penis is the external genitalia in human males .
  • It is made up of special erectile tissue that helps in erection of the penis to facilitate insemination.

The enlarged tip of the penis is called glans penis covered by foreskin/prepuce.


The Female Reproductive system
It consists of :

  • The primary sex organ that is a pair of ovaries 
  • Secondary sex organs- the duct system consisting of a pair of fallopian tube , a uterus , cervix and vagina 
  • External genitalia 
  • Mammary glands

Ovaries

  • Produce female gametes called ova 
  • Located in abdominal cavity
  • Each ovary is almond shaped body 
  • Coved by a thin epithelium , enclosing the ovarian stroma 
  • Stroma is divided into 2 regions :
             1.       Peripheral cortex
             2.       Inner medulla

Fallopian Tube

  • Part closer to ovary-funnel shaped infundibulum 
  • Infundibulum possesses finger like projections-fimbriae 
  • Wider part of oviduct –ampulla 
  • Last part of oviduct-isthmus

Uterus

  • Covered by three layered wall:
  1. Perimetrium – outer most layer 
  2. Myometrium- middle layer
  3. Endometrium-inner most layer

External Genitalia

  • Mons pubis – cushion of fatty tissues covered by skin and pubic hair
  • Labia majora – fleshy folds of tissue extending down from mons pubis ,  surrounding the vaginal opening
  • Labia minora – paired folds of tissue under labia majora 
  • Clitoris – tiny finger-like structure which lies at the upper junction of the two labia minora , above the urethral opening
  • Hymen – a membrane covering the opening of vagina partially


Mammary Glands

  • Consists of glandular tissue and variable amount of fat
  • Glandular tissue divided into 15-20 mammary lobes
  • Each lobe contains clusters of cells called alveoli opening into mammary tubules
  • Mammary tubules join to form mammary duct
  • Mammary ducts join to form mammary ampulla connected to lactiferous duct 
  • Milk secreted by cells of alveoli, stored in the lumen of alveoli

GAMETOGENESIS
The process of formation of gametes is called gametogenesis 
It is of two types:
1. Spermatogenesis in males
2. Oogenesis in females

1.  Spermatogenesis
The process of formation of sperms in males is called spermatogenesis

  • The spermatogonia present on the inner wall of seminiferous tubules multiply by mitotic division and form primary spermatocytes.
  • Primary spermatocytes undergo meiosis.
  • Primary spermatocytes complete 1st meiotic division, forms 2 equal haploid secondary spermatocytes 
  • Secondary spermatocytes undergo 2nd meiotic division to form 4 haploid spermatids 
  • Spermatids transform into spermatozoa (sperms) - spermiogenesis 
  • Sperm heads get embeded in sertoli cells, finally released from seminiferous tubules -spermiation 

Hormonal control of spermatogenesis

  • Spermatogenesis initiated due to increase in secretion of gonadotropin releasing hormone by hypothalamus
  • Increase in GnRH act on anterior pituitary and stimulate secretion of two gonadotropins, LH and FSH
  • LH acts on Leydig cells and stimulates them to secrete androgens.
  • FSH acts on Sertoli cells, stimulates secretion of some factors which help in spermiogenesis 

Structure of Sperm

  • Composed of head, neck, middle piece and a tail.
  • Plasma membrane envelopes the whole body of sperm 
  • Sperm head contains an elongated haploid nucleus, the anterior portion of which is covered a cap like structure, acrosome.
  • Acrosome- filled with enzymes that help fertilisation of ovum
  • Middle piece possesses numerous mitochondria-energy for movement of tail
  • Sperms released from the seminiferous tubules are transported by the accessory ducts .
  • Secretions of epididymis , vas deferens , seminal vesicle , prostate – essential for maturation and motility of sperms
  • Semen – seminal plasma along with sperms 
  • Functions of male accessory glands controlled by testicular hormones (androgens)

2.  Oogenesis
The process of formation of a mature female gamete is called oogenesis 

  • Oogonia start division, enter into prophase I of meiosis - primary oocytes
  • Each primary oocyte gets surrounded by a layer of granulosa cells-primary follicle
  • Primary follicles gets surrounded by more layers of granulosa cells-secondary follicles
  • Secondary follicle transforms into a tertiary follicle characterised by a fluid filled cavity called antrum
  • The primary oocyte within the tertiary follicle grows in size, completes 1st meiotic division
  • It results in unequal division, formation of large haploid secondary oocyte and tiny 1st polar body
  • Tertiary follicle changes into graafian follicle
  • Secondary oocyte forms a new membrane-zona pellucida
  • Ovulation – graafian follicle ruptures to release the secondary oocyte (ovum) from the ovary

Menstrual cycle

The cyclic changes that occur in the reproductive organs of primate females is called menstrual cycle
The events in a menstrual cycle can be studied under four phases


  • Menstrual phase
  1. It lasts for 3-5 days
  2. It results due to breakdown of endometrial lining of uterus and its blood vessels


  • Follicular phase
  1. Endometrium is regenerated by proliferation of its cells
  2. These changes are due to increased levels of FSH , LH, Estrogen 
  3. FSH controls follicular phase, stimulates growth of follicles , secretion of Estrogen
  4. FSH and LH reach their peak level in the middle of the cycle


  • Ovulatory phase
  1. Peak level of LH induces rupture of mature graafian follicle and release of ovum-ovulation


  • Luteal phase
  1. Ruptured follicle transforms into corpus luteum 
  2. It secretes large quantities of progesterones 



  • In absence of fertilisation, corpus luteum degenerates. This causes disintegration of endometrium 


  • Menstrual cycle cease at the age of 45 - 50  menopause.


Fertilisation and Implantation

The process of fusion of a sperm with an ovum is called fertilisation.

Fertilisation can only occur if the ovum and sperms are transported simultaneously to the ampullary – isthmic junction.

Events during fertilisation :

  • Sperm comes in contact with zona pellucida 
  • Induces changes in membrane that block entry of additional sperms
  • Secretions of acrosome help sperm enter the cytoplasm of ovum 
  • Meiotic division of secondary oocyte 
  • Haploid ovum and 2nd polar body formed
  • Formation of zygote

Implantation

  • zygote moves towards uterus
  • Blastomeres (2,4,8,16 daughter cells)
  • morula (8-16 blastomeres)
  • blastocyst 
  • Blastomeres in blastocyst arrange into an outer layer trophoblast and an inner group of cells attached to trophoblast 
  • Blastocyst gets embedded in endometrium of uterus (implantation)
  • Uterine cells rapidly divide and cover the blastocyst 

Pregnancy and embryonic development

  • Inner layer grows out as finger like projections called villi into the uterine stroma
  • Chorionic villi and uterine tissue get interdigitated to form placenta
  • Placenta secretes hormones like hCG , hPL , estrogens , progesterones (to maintain pregnancy)
  • Inner cell mass differentiates into an outer layer called ectoderm and an inner layer called endoderm
  • Mesoderm appears between ectoderm and endoderm
  • Stem cells (undifferentiated embryonic cells)

Features of embryonic development


  • The human pregnancy lasts for 9 months
  • 1st month – embryo’s heart is formed
  • 2nd month – foetus develops limbs and digits
  • 12 weeks (1st trimester) – major organ systems are formed
  • 5th month – 1st movements of foetus and appearance of hair on head
  • 24 weeks (2nd trimester) – body covered with fine hair , eye lids separate , eye lashes formed

Parturition and Lactation

  • Gestation period – 9 months
  • Parturition – the process of delivery of the foetus (childbirth)
  • Signals for parturition originate from the fully developed fetus and placenta inducing mild uterine contractions called Foetal ejection reflex
  • It triggers the release of oxytocin from maternal pituitary
Oxytocin acts on uterine muscle, causes stronger uterine contractions, which in turn stimulates further secretion of oxytocin.

Lactation

  • The mammary glands undergo differentiation during pregnancy and starts producing milk towards the end of pregnancy by the process called lactation.
  • The milk produced during the initial few days of lactation – colostrum
  • It contains several antibodies essential to develop resistance for new-borns.