Cell and Tissue Research

Slides:

Advertisements

Similar presentations

Lecture 1. Structure of Epithelial Tissues ONE CELL THICK SIMPLE MORE THAN ONE CELL THICK COMPOUND EPITHELIA.

Advertisements

SSN Session Epithelial Tissue Jennifer Chang (jtc2109) Bram Welch-Horan (tbw5) October 11, 2005.

Epithelial Tissue Epithelial tissue is characterized by cellularity, that means that we will see many cells packed closely together. Remember that when.

ACCESSORY DIGESTIVE GLANDS

Fig. 6-7 TEM of a plasma membrane (a) (b) Structure of the plasma membrane Outside of cell Inside of cell 0.1 µm Hydrophilic region Hydrophobic region.

LE 7-2 Hydrophilic head Hydrophobic tail WATER. LE 7-3 Hydrophilic region of protein Hydrophobic region of protein Phospholipid bilayer.

10 m 1 m 0.1 m 1 cm 1 mm 100 µm 10 µm 1 µm 100 nm 10 nm 1 nm 0.1 nm

Fig m 1 m 0.1 m 1 cm 1 mm 100 µm 10 µm 1 µm 100 nm 10 nm 1 nm 0.1 nm Atoms Small molecules Lipids Proteins Ribosomes Viruses Smallest bacteria.

Tissues Tissue = a group of cells (and their extracellular products) that share a similar structure or function. Each organ is made up of several tissue.

This shows you a section of a blood vessel illustrating a simple squamous epithelium (E). Note that the epithelium is so thin that the only thing you can.

Chapter 6: Types of Cells and Cell Structures

SMALL INTESTINE Dr IramTassaduq. SMALL INTESTINE Dr IramTassaduq.

GIT 2 By: Dr Hossam El-deen Salem. Rugae Longitudinal folds of the stomach wall to allow for expansion.

The factors that increase the surface area for absorption in small intestine 1. Valves of Kerckring (plicae circulares) 2. Intestinal villi 3. Microvilli.

Invest. Ophthalmol. Vis. Sci ;49(10): doi: /iovs Figure Legend:

Histology Review.

Types of Glands (1). Number of cells the glands are made up of:

Alimentary Canal (I) Esophagus and Stomach (Objectives)

4.2 Parts of the Eukaryotic Cell

Ms. Ethridge, Ms. Milstead, Ms. Myers, Ms. Palermo

Examples of different types of connective tissues. A

Alimentary Canal (I) Esophagus and Stomach (Objectives)

STEM Fair: Statistical Analysis

Suppl. Fig. 1 Flower longevity in Lilium cut flowers exposed to all spray applications of hormonal treatments used in the study. Data correspond to the.

Modern Day Eukaryotic Cells

Cell Structure I VIBS 443/602.

Cell Parts and Functions

Volume 68, Issue 1, Pages (July 2005)

Foxf2 in Intestinal Fibroblasts Reduces Numbers of Lgr5+ Stem Cells and Adenoma Formation by Inhibiting Wnt Signaling Ali Moussavi Nik, Azadeh Reyahi,

Eukaryotic Cell Components Part 1

3 Nucleus 3 parts: Nuclear Envelope: This separates the nucleus from the rest of the cell. Sort of like the security force at the White House. The largest,

Zika virus impairs growth in human neurospheres and brain organoids

Pietro M Motta, M.D., Rosemarie Heyn, Ph.D., Sayoko Makabe, M.D.

VEGF Gene Delivery to Muscle

Volume 122, Issue 2, Pages (February 2002)

K.M. Schumacher, S.C. Phua, A. Schumacher, J.Y. Ying

Volume 137, Issue 3, Pages e3 (September 2009)

Eukaryotic Cell Components Part 1

Dendritic spine density at P30 is elevated on isolated PirB−/− neurons in layer 2/3 after sparse excision of PirB at E15.5. Dendritic spine density at.

Volume 27, Issue 6, Pages (March 2017)

A Role for Insect Galectins in Parasite Survival

Protection of rat spinal cord from ischemia with dextrorphan and cycloheximide: Effects on necrosis and apoptosis Hiroyuki Kato, MD, PhDa c, Georgios.

Eukaryotic Cell Components Part 1

Crohn’s disease and the NOD2 gene: a role for paneth cells

Volume 125, Issue 4, Pages (October 2003)

Histology Slides for Muscle Tissues

Intrinsic Patterns of Behavior of Epithelial Stem Cells

Eukaryotic Cell Components Part 1

Takatoshi Kiba, Kentaro Takei, Mikiko Kojima, Hitoshi Sakakibara

Cell Structure & Function

Insects Recycle Endosymbionts when the Benefit Is Over

Inhibition of Hair Follicle Growth by a Laminin-1 G-Domain Peptide, RKRLQVQLSIRT, in an Organ Culture of Isolated Vibrissa Rudiment1 Kazuhiro Hayashi,

Influence of symbionts on the development and physiology of the light organ. Influence of symbionts on the development and physiology of the light organ.

3 Nucleus 3 parts: Nuclear Envelope: This separates the nucleus from the rest of the cell. Sort of like the security force at the White House. The largest,

REVIEW CELL ORGANELLES.

Volume 9, Pages (November 2018)

Histology of digestive system oesophagus, stomach-fundus & pylorus

Volume 65, Issue 2, Pages (February 2004)

Steven Z. DeLuca, Patrick H. O'Farrell Developmental Cell

Alimentary Canal (I) Esophagus and Stomach (Objectives)

Eukaryotic Cell Components Part 1

Volume 20, Issue 4, Pages (October 2016)

DDR1 kinase is required for tubulogenesis and polarity-dependent MT1-MMP localization at the basal surface. DDR1 kinase is required for tubulogenesis and.

Fig. 6. crb_C mutant photoreceptor cells exhibit normal morphology.

Epithelia Tissue Epithelia can be divided into two main groups:

DDR1 kinase is required for tubulogenesis and polarity-dependent MT1-MMP localization at the basal surface. DDR1 kinase is required for tubulogenesis and.

ALS-CSF induces atrophy of type 2 fibres in EDL muscle of neonatal rats. ALS-CSF induces atrophy of type 2 fibres in EDL muscle of neonatal rats. (A,B)

Volume 25, Issue 8, Pages (April 2015)

Autophagy Activation Is Mediated by the Secretion of T3Es.

Foxf2 in Intestinal Fibroblasts Reduces Numbers of Lgr5+ Stem Cells and Adenoma Formation by Inhibiting Wnt Signaling Ali Moussavi Nik, Azadeh Reyahi,

Presentation transcript:

Cell and Tissue Research * Ep n PM L a 20 m b sc n Bl m 5 m Sup. Fig 1 - Histological section (A) stained with HE and TEM (B) of the midgut of three-days old 4th larvae of PPIS. A - Epithelium (Ep) with the digestive columnar cells with central nuclei (n). Note protrusion (bleb) of the apical cytoplasm (*) towards the midgut lumen. Peritrophic matrix (PM) separates the luminal content (L) from the epithelium. B - Two stem cells (sc) close to the basal lamina (Bl) in the midgut epithelium. In one of the cells a prominent and central nucleus (n) and few mitochondria (m) are seen. Midgut morphological changes and autophagy during metamorphosis in sand flies Juliana Malta, Matthew Heerman, Ju Lin Weng, Kenner M. Fernandes, Gustavo Ferreira Martins, Marcelo Ramalho-Ortigão Cell and Tissue Research

a Height of the Cells c b d

Cell and Tissue Research Sup. Fig. 2 - Height of the digestive cells of LLJB and PPIS (a) and midgut length and width during developmental stages in LLJB (B-D). Length and width of the midgut in 3rd instar (L3), 4th instar (L4), pupa, and adult were measured for five insects at each stage of development. [a] Midgut cell height (mean ± SE). Asterisks indicate statistically significant difference between the two species at the same developmental stage by T student test (p<0.001). Lower (LLJB) and upper (PPIS) case letters indicate whether differences in digestive cell height are statistically significant (ANOVA/Tukey) (p<0.001). [b] Average length and standard deviation of insects in each stage. [c] Change in average width across stages. One way ANOVA was performed with a Tukey post test for multiple comparisons to measure statistical significance (P<0.05). [d] Axial ratio (L/W) of the midgut in L3, L4, pupa, and adult. This calculation was based on the length of the midgut divided by the average width of the midgut across its length. One way ANOVA was performed with a Tukey post test for multiple comparisons for significance (p<0.05). Midgut morphological changes and autophagy during metamorphosis in sand flies Juliana Malta, Matthew Heerman, Ju Lin Weng, Kenner M. Fernandes, Gustavo Ferreira Martins, Marcelo Ramalho-Ortigão Cell and Tissue Research

a b d c e f au L rer b n n Ep n ef Ep n L ml L Ep mv Ep L n nu n b A

Cell and Tissue Research Sup. Fig. 3 - Histological sections (A and C-E; stained with HE) and TEM (C and F) of the midgut of LLJB and PPIS. [a] Midgut epithelium (Ep) of L4-5 of LLJB with digestive cells with a central nucleus, evident nucleolus (nu) and brush border (b). L - midgut lumen. [b] Portions of two digestive cells of L4-5 PPIS, showing part of their nuclei (n) with a predominance of decondensed chromatin. au - autophagic vacuoles; rer - rough endoplasmic reticulum. [c] Midgut epithelium (Ep) with digestive columnar cells of pre-pupa of LLJB, with central nuclei (n). Arrows - stem cells on the basal region of the epithelium. L - lumen; ml - muscle layer. [d] Midgut epithelium (Ep) of LLJB 72h after pupation onset (P72) with flattened cells. L - strongly stained lumen; n - nucleus. [e] Midgut epithelium (Ep) of adult with columnar digestive cells, with a central nucleus (n) and brush border (b). L - lumen. [f] Digestive cell of LLJB adult with central nucleus (n) with predominant decondensed chromatin and microvilli (mv) arranged in parallel in the apical region. Midgut morphological changes and autophagy during metamorphosis in sand flies Juliana Malta, Matthew Heerman, Ju Lin Weng, Kenner M. Fernandes, Gustavo Ferreira Martins, Marcelo Ramalho-Ortigão Cell and Tissue Research

Accesion # D. melanogaster Accesion # L. longipalpis Sup. Tab. 1 - Summary of Blast data used to locate L. longipalpis autophagy and growth factor sequences. The D. melanogaster query accession numbers and corresponding subject L. longipalpis accession numbers are listed along with the % identity, score, and E-values. Gene Symbol Accesion # D. melanogaster Accesion # L. longipalpis Identity Score E-value ATG1 NP_648601.1 LLOJ007855 79.70% 1431 4.00E-157 ATG6 NP_651209.1 LLOJ007047 59.30% 1907 ATG8 NP_727447.1 LLOJ007649 96.60% 814 3.00E-80 Vein NP_523942.2 LLOJ001534 61% 933 1.00E-84 Sup. Tab. 2 - List of forward and reverse primer sequences used for RT-qPCR. Gene Symbol Primer 5' - 3' Forward Primer 5'-3' Reverse ATG1 GGTGATTTGGCGGACTAC ATTCTGTGGCTTGAGGTC ATG6 GCTCCTGTTGATTGGTCA CGTAAGGGACGAGTTTGTAG ATG8 GAAGTACCTTGTGCCGTCT CAGAGATCCCATTGATGC Vein CGCAATGGATGAGAACAC TGAGCAATACCTACGCTGAC Midgut morphological changes and autophagy during metamorphosis in sand flies Juliana Malta, Matthew Heerman, Ju Lin Weng, Kenner M. Fernandes, Gustavo Ferreira Martins, Marcelo Ramalho-Ortigão Cell and Tissue Research 50 µm