inexpensive Protocols

Category: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

The protocol includes: organelle isolation, deoxyribonuclease treatment, lysis, deproteinisation and a final DNA purification with sodium dodecyl sulphate and potassium acetate. The organelle DNA yield is 5–10 micrograms per gram of tissue and the DNA is fully restrictable. The technique is inexpensive and appropriate for the isolation of multiple samples of organelle DNA from a small amount of tissue. - [Read A Method for Isolation of Chloroplast DNA and Mitochondrial DNA from Sunflower]

Category: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

The original maize DNA miniprep protocol is used extensively for many plant species and different tissues. This slightly modified version is acceptable for most DNA extractions. The procedure has the advantage of speed and its use of inexpensive reagents. - [Read DNA Miniprep Isolation from Plants Protocol]

Category: Plant Biology Protocols: Plant Genetics Protocols

Microsatellite markers, also referred to as STMS (SequenceTagged Microsatellite Sites) or STR (Short Tandem Repeats) are widely used as molecular markers for intraspecific genotyping, molecular mapping and breeding purposes. The method described is an efficient,fast and relatively inexpensive way to obtain microsatellite markers without post-cloning selection methods. So far, the method has been successful in onion (Allium cepa L.), a plant with a large genome and for pathogenic fungi. - [Read Enrichment for Microsatellite Sequences in Onion (Allium cepa L.) Protocol]

Category: Developmental Biology: Embryology Protocols

A simple and inexpensive chamber for regulating gaseous environment of small culture plates, such as those used for culture of preimplantation embryos, can be constructed using disposable media-filtration devises such as Corning’s 115-ml system. The following is a description of how to make such a device. - [Read Mini-Chamber for Regulating Gaseous Environment During Culture]

Category: Microinjection Protocols: Microinjection Equipment

This protocol contains methods for pulling microinjection needles using two different models of pipette pullers. The advantage of pulling needles in the laboratory is that a variety of different needle types can be pulled, depending on the samples and cells being injected. An added advantage is cost; once a pipette puller has been purchased, boxes of glass capillaries are inexpensive compared to premade microinjection needles. - [Read Preparation (Pulling) of Needles for Gene Delivery by Microinjection Protocol]

Category: Cytogenetics Protocols

Protocol describes methods for maintaining healthy, dividing mammalian cells in culture and during imaging, when mitosis can be examined. Rose chambers are preferable for observation and microinjection of living mitotic cells, but slide/coverslip preparations are easy to make and do not require any special equipment. Another inexpensive and easy-to-use alternative is to grow cells in a culture dish with a glass bottom. Such dishes are suitable for microinjection experiments. - [Read Studying Mitosis in Cultured Mammalian Cells Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: Mitosis Protocols

Protocol describes methods for maintaining healthy, dividing mammalian cells in culture and during imaging, when mitosis can be examined. Rose chambers are preferable for observation and microinjection of living mitotic cells, but slide/coverslip preparations are easy to make and do not require any special equipment. Another inexpensive and easy-to-use alternative is to grow cells in a culture dish with a glass bottom. Such dishes are suitable for microinjection experiments. - [Read Studying Mitosis in Cultured Mammalian Cells Prtocol]