Plant Cell Types Hand-out PDF

Summary

This document summarizes the different types of plant cells and their characteristics, focusing on their shapes, locations, and functions. The information is from a Biology lecture handout or similar educational resource

Full Transcript

BIO 14 (Biodiversity)
Lecture Hand-out

Summary of Cell Types in Plants
CELL TYPE CHARACTERISTICS LOCATION FUNCTION
Parenchyma Shape: commonly polyhedral (many- Throughout the plant, as Metabolic processes like
sided); variable parenchyma tissue in cortex, respiration, digestion, and
as pith and pith rays, or in photosynthesis; storage and
Cell wall: primary, or primary and xylem and phloem conduction; wound healing
secondary; may be lignified, suberized, and regeneration
or cutinized

Living at maturity
Collenchyma Shape: elongated On the periphery(beneath the Support in primary plant body
epidermis)in young
Cell wall: unevenly thickened; primary elongating stems; often as a
only- nonlignified cylinder of tissue or only in
patches; in ribs along veins in
Living at maturity some leaves
Fibers Shape: generally very long Sometimes in cortex of Support
stems, most often associated
Cell wall: primary and thick secondary- with xylem and phloem; in
often lignified leaves of monocotyledons

Often (not always) dead at maturity
Sclereids Shape: variable; generally shorter than Throughout the plant Mechanical ; protective
fibers

Cell wall: primary and thick secondary-
generally lignified

May be living or dead at maturity
Tracheid Shape: elongated and tapering Xylem Chief water-conducting
Cell wall: primary and secondary; element in gymnosperms and
lignified;contains pits,but not seedless vascular plants; also
perforations found in angiosperms
Dead at maturity
Vessel member Shape: elongated, generally not as long Xylem Chief water-conducting
as tracheids element in angiosperms

Cell wall: primary and secondary;
lignified; contains pits and perforations;
several vessel members end-to-end
constitute a vessel
Dead at maturity
Sieve cell Shape: elongated, and tapering Phloem Chief food-conducting
element in gymnosperms and
Cell wall: primary in most species; with seedless vascular plants
sieve areas; callose often associated
with wall and pores
 Living at maturity; either lacks or
contains remnants of a nucleus at
maturity; lacks distinction between
vacuole and cytoplasm
Albuminous cell Shape: generally elongated Phloem Believed to play a role in the
movement of food into and
Cell wall: primary out of the sieve cell

Living at maturity; associated with sieve
cell, but generally not derived from
same mother cell as sieve cell; has
numerous connections with sieve cell
Sieve-tube member Shape: elongated Phloem Chief food-conducting
element in angiosperms
Cell wall: primary , with sieve areas;
sieve areas on end wall with much
larger pores than those on side walls-
this wall part is termed a sieve plate;
callose often associated with wall and
pores

Living at maturity; either lacks a
nucleus at maturity, or contains only
remnants of nucleus; contains a
proteinaceous substance known as
slime, or P-protein in dicots and some
monocots; several sieve-tube members
in a vertical series constitute a sieve
tube
Companion cell Shape: variable, generally elongated Phloem Believed to play a role in the
Cell wall: primary movement of food into and
Living at maturity; closely associated out of the sieve-tube member
with sieve-tube members; derived from
same mother cell as sieve –tube
member; has numerous connections
with sieve-tube member