Answer:
A,C,D are the correct answers
Explanation:
Straightforward, dependable core facility HLA tissue typing service
Using state of the art genotyping technologies as used in HLA typing for organ transplantation
We work with genomic DNA, Saliva, Whole Blood, or Cryopreserved cells
Detailed results typically sent in 3 weeks
typeHLA Tissue Typing Service Overview
Typing technology options
New Next Generation Sequencing (NGS)
PCR-SSOP using Luminex®
(previously called Tier 1)
HLA Class I loci available
A, B and C
(whole Class I panel reported)
A, B, C
(can be ordered individually)
HLA Class II loci available
DRB1, DPB1 and DQB1
(whole Class II panel reported)
DRB1, DRB3,4,5, DPA1*, DPB1, DQA1*, DQB1
(can be ordered individually)
Resolution of typing data
Fully resolved 4 digit (allelic level) typing with no degeneracy for all samples
4 digit (allelic level) typing but with some degeneracy
Features / Restrictions
Only available for ordering whole Class I panel (3 loci) or whole Cass II panel (3 loci) or whole Class I and Class II panel (6 loci)
Can be ordered for each locus individually
Turnaround time (approximate)
3 weeks
Sample formats accepted
gDNA, Cryopreserved PBMCs/other Cells, Blood, Saliva
Report format
Electronic format (PDF, XLS) via secure webserver
A)Movement
Tress or plants can't move they can grow, reproduce and evolve but not move.
Answer:
B) a higher protein to lipid ratio.
Explanation:
The cell membrane of eukaryotes is known to be a phospholipid bilayer with embedded proteins. This implies that the first tube will contain a higher amount of lipids.
The membrane of the mitochondria is slightly different from the cell membrane in which its protein to lipid ratio is higher, containing a large number of integral proteins.
Answer:
The correct answer is: lets the air get inside the lungs.
Explanation:
The process of ventilation, or breathing, consists of two parts: <u>inhaling and exhaling.</u>
Inhaling is the name of the process that is responsible for the air entering the body by the respiratory tract. Exhaling is the opposite, it lets the air out. Both are equally important since they allow the gas exchange necessary for the oxygenation of the blood.
When inhaling, the diaphragm and the external intercostal muscles contract. This pulls the ribcage upwards and outwards, which increases lung volume while decreasing the air pressure inside.
